DE1433486C - Process and fresh agent lance for refining melt baths in metallurgical vessels, in particular pig iron in converters - Google Patents

Description

The invention relates to a method and a particularly advantageous fresh agent lance for carrying it out for refining molten baths in metallurgical vessels, especially pig iron in converters, in the case of which the fresh agent is introduced vertically through fresh agent lances and in the case of oxygen and Water vapor can be supplied to the focal point on the enamel surface.

A major disadvantage of the known Verfx It is advisable to use pure oxygen when refining iron, because of the violent reaction of the fresh substance justified. The locally resulting high temperatures reach values at which ei Combustion of the metal and its companions sta takes place. It is well known that this deficiency was caused by Beirr See from water vapor to oxygen to a lesser extent: With a suitable choice of the mixing ratio The temperature in the metal bath can be regulated with this oxygen / water vapor. It is assumed that here is responsible for the reduction of the heat-releasing oxygen.

The assumption that the temperature can be regulated by random mixing fails because the mixing of oxygen with water vapor is difficult. I. in general, the oxygen is pressurized to provide a greater amount per unit of time fed by some atü. Within the flow of the fresh agent lance must be with greater flow speeds are expected. The introduction:

one gas into another flowing gas is affected by streaking. Mixing Saue It is advisable not to use steam for a long time before using the mixture A relatively short time is therefore available to form the mixture. This creates an egg further difficulty as a consequence of the insufficiently distributed vapor in the oxygen. Meets d Inadequately distributed mixture of the fresh agent melt in the weld pool, then again locally form an overheated zone, depending on the proportions of pure oxygen and to lower the temperature intended water vapor.

Contrary to several known proposals to supply oxygen and steam separately, etv such that the water vapor jet surrounds the Sauerster jet protectively, the present E The task of making a particularly intensive mixing of oxygen and water vapor is to start ben.

According to the invention, a better Durchrr schung than before is achieved in that either de oxygen or the water vapor pressure pulses ν are applied to the mixing of the two fresh agents and then the mixture is blown onto the focal point in jets that form a cone shell coaxial with the lance axis. This drive has two important advantages: on the one hand, the mixing of steam and oxygen is encouraged and, on the other hand, there is a uniform temperature reduction over a large area. In addition, the temporary increase in pressure caused by the introduction of the pressure pulses increases the penetration depth of the rays into the weld pool. C reactions therefore run more intensely so that the fresh process takes place more quickly. The intensification of the effect of the mixture v <oxygen and water vapor can be varied by applying pressure pulses to either the oxygen or the water vapor. At the beginning of c blowing it is advantageous to bring the reaction to a faster pace by creating an equalization of the even lower temperatures by giving up c pressure impulses. The temperature ',

Focal spot can be based on the proposed Process therefore lead more quickly to an otherwise medium level.

After an improvement it is intended to regulate the intensity of the mixture by changing it to bring about the frequency. It is advantageous to set the frequency of the pressure pulses between 50 and 3000 Hz, preferably in the range between 500 and 1500 Hz.

The mixing of oxygen and water vapor is improved after an additional measure, by the respectively pulsating fresh agent during the mixing of the fresh agent for sucking in the other Fresh agent is used.

A fresh agent lance is advantageously used to carry out the method explained above, within which an inner pipe to the steam line, one concentrically arranged around this pipe Pipe to the oxygen line and supply and discharge pipes concentric to both of them to the Cooling water pipes are connected; also is in the upper part of the fresh agent lance in the steam pipe or in Oxygen tube a pulse generator is provided, the inner steam tube is provided with nozzles that the Blow steam into the mixing chamber, and finally there are mixing nozzles at the end of the oxygen tube arranged in a circle, which point obliquely from the inside to the outside.

The steam nozzles are expediently coaxial with part or all of the from Mixing chamber arranged to the outside leading mixture nozzles. The pulse generator can in a further embodiment of the invention can be provided as an electromagnetic pulse generator in the upper part of the lance.

According to a further feature of the invention, the pulse generator can have a closing element Throttle member, a membrane or the like. Be assigned, by means of which the passage cross-section alternately Can be enlarged or reduced. Such an arrangement can be found as required in the inner pipe of the steam line as well as in the pipe arranged concentrically around this pipe Oxygen line.

In the drawing is that described above Fresh agent lance shown schematically and will be explained in more detail below:

The figure of the drawing shows an axial longitudinal section.

The fresh agent lance has an inner tube 1 to which steam is supplied through the steam line 2 will. In the space 3 there is a spring-loaded closing element 4 (valve) or a A throttle organ that works in a similar manner. The organ is excited in each case by the electromagnetic coil 5, the thus the passage cross-section through the steam constantly closes off, opens or reduces and enlarges.

At the lower end of the inner tube 1, the nozzles 6 are arranged, in such a way at an angle directed outside that their rays lie on a cone surface.

The oxygen tube 10 is arranged around the inner tube 1 and supplies oxygen from the connector 11 receives fed. At the lower end of this pipe, mixture nozzles 12 are arranged so that their rays lie on the surface of the cone. The nozzles 6 or mixture nozzles 12 are each coaxial arranged. This results in the already described ejector effect of the steam jet on the Oxygen.

The cooling water line is denoted by 13 and connected to the supply pipe 14. The cooling water flows through the discharge pipe 16 and is discharged via the pipe 15. The mixture nozzles 12 also penetrate the supply and discharge pipes 14, 16 through which the cooling water flows.

The mixing space 18 of the tube 10 acts as a chamber for mixing steam and oxygen, so that a mixture already emerges from the mixture nozzles 12.

The pulse generator can be electrical, i. H. electromagnetic, also mechanical or hydraulic or operated pneumatically.

The pressure pulses not only promote the penetration depth of the oxygen or the mixture, they bring about also an intense bath movement with it, which is conducive to the rapid course of the reactions. the The invention can therefore not only be used with advantage for the refining of molten baths in converters, it is also recommended for Siemens-Martin ovens or for pre-freshening stoves for shaft ovens. Whether the procedure exercised or whether you work with oxygen alone for a long time depends on the circumstances, d. H. on the pig iron to be blown, the type of steel sought and also on the type of furnace. Furthermore, nothing stands in the way of the proposed fresh agent lance also for introducing additives in powdered form, e.g. B. of lime powder to use. The invention therefore brings both in in relation to the molten bath to be freshened as well as in relation to the efficiency of the fresh vessel and finally for the service life of the nozzles in the fresh agent lance and the durability of the masonry considerable advantages with it.

1 sheet of drawings

Claims (7)

Patent claims: 1. A method for refining molten baths in metallurgical vessels, in particular from Pig iron in converters, in which the fresh agent is introduced vertically through fresh agent lances and in which oxygen and water vapor are supplied to the focal point on the surface of the melt pool ■ are characterized in that either the oxygen or the water vapor Pressure pulses are applied before the two fresh agents are mixed and then the Mixture in jets, which lie on a cone surface coaxial to the lance axis, on the Focal spot is blown. 2. The method according to claim 1, characterized in that the frequency of the pressure pulses between 50 and 3000 Hz, preferably in the range from 500 to 1500 Hz. 3. The method according to claims 1 and 2, characterized in that each pulsating Fresh agent during the mixing of the fresh agent for sucking in the other fresh agent is used. 4. Fresh agent lance for practicing the method according to claims 1 to 3, characterized in that that an inner pipe (1) to the steam line (2), a pipe (10) arranged concentrically around this pipe to the oxygen line (11) and supply and discharge pipes (14, 16) lying concentrically to both of the cooling water lines (13, 15) are connected that in the upper part of the fresh agent lance in the steam pipe (1) or in the oxygen pipe (10) a pulse generator it is provided that the inner steam tube (1) is provided with nozzles (6), which the water vapor blow into the mixing chamber (18) that at the end of the oxygen roh res (10) mixture nozzles (12) in Circular shape are arranged, which point obliquely from the inside to the outside. 5. Fresh agent lance according to claim 4, characterized in that the steam nozzles (6) are coaxial with some or all of the mixture nozzles leading to the outside from the mixing chamber (18) (12) are arranged. 6. Fresh agent lance according to claims 4 and 5, characterized in that an electromagnetic Pulse generator (4, 5) is provided in the upper part of the lance. 7. Fresh agent lance according to claims 4 to 6, characterized in that the pulse generator (4, 5) is assigned to a closing element (4), a throttle element, a membrane or the like, by means of which the passage cross-section can be alternately increased or decreased.