DE819247C - Ferrosilicon production - Google Patents

Description

Ferrosilicon production. Stand for the production of ferrosilicon basically two ways are available. One way is to use ferrosilicon to be melted in the blast furnace, but generally in addition to highly silicate types of pig iron only ferrosilicon with about 10 to 13% silicon can be produced. This ferrosilicon has certain disadvantages for use in steelworks insofar as the proportion is comparatively high in iron and large amounts when added to molten steel must be added, which bring an undesirable cooling of the batch with it. It is therefore often necessary to liquefy the ferrosilicon beforehand and add the liquefied quantities, which results in additional heat consumption, quite apart from the fact that this requires special melting furnaces. Higher percentage Ferrosilicon, which does not have these disadvantages when used in steelworks is always melted in an electric furnace. This is quartz and / or quartzite with reactive coke of suitable grain size or, also with short, broken charcoal Steel turnings are melted down, with the S'02 reduced and silicon from the melted Turning chips is recorded. The heating usually takes place in a three-phase furnace Use of carbon electrodes.

The process with which one can obtain different types of ferrosilicon, so for example 45%, 75% and also goo /% ferrous silicon can produce, requires an extraordinarily high expenditure of energy, and it surrenders itself with careful monitoring of the operation there are often disturbances that affect the spreading reduce. The aim of the invention is to propose a method -that without Change of the usual ovens and at constant capacity more ferrosilicon than was previously possible with the same energy consumption, to create. In addition, the measures should lead to the melting process being facilitated and gives rise to fewer disturbances. ' This aim is achieved according to the invention Surprisingly achieved when quartz and / or quartzite, coke and steel filings a ferrosilicon alloy is also added. The ferrosilicon apparently has in the In the course of the reactions that occur, the property is a slightly liquid alloy to form, which leads to the fact that the melt passage is significantly facilitated. About that In addition, there is an increase in output in a manner that is not to be expected Silicon in the form of feriosilicon, based on the use of quartz and / or quartzite.

It has proven to be particularly useful to use one produced in a blast furnace To use ferrosilicon, which contains io to 130/0 silicon. The procedure according to the invention leads to a substantial power saving of 10% and more, based on the reduced, silicon. In addition, there is a higher yield at the reduction process, which is also 10% and more. In addition, how already mentioned, the melting process in the production of ferrosilicon in the electric furnace is improved. In addition, there is the possibility of about 10 to 13% silicon containing blast furnace ferrous silicon usefully to process in a way that the steelworker relieves the difficulties associated with immediate use this ferrosilicon are connected in the steel mill.

In addition to blast furnace ferrosilicon, any ferrous silicon melted in any other way can also be used, whereby ferrosilicon with a wide variety of silicon contents can also be used and a ferrosilicon is expediently used whose silicon content corresponds at most to that of the desired end product. For example, it is possible to add a ferrosilicon with 75% silicon in order to produce a ferrosilicon with 90% silicon. Ferrosilicon alloys with a different composition between 30 and 95% silicon can also be produced accordingly, whereby the analysis can of course be based on common contents such as 75, 90 or 95% silicon.

It has been found to be particularly useful, insert and melt path to conduct so that with the addition of blast furnace ferrous silicon in the electric furnace on Ferrosilicon is worked towards, which contains about 45% silicon.

Claims (3)

PATENT CLAIMS: i. Process for the production of ferrosilicon in the electric arc furnace by melting down quartz and / or quartzite and steel scrap with the addition of coke, characterized in that melted ferrosilicon is added in any manner. 2. The method according to claim 1, characterized in that that blast furnace ferrous silicon is added, preferably with a content of io to 13% silicon. 3. The method according to claim i or 2, characterized in that on a ferrosilicon with 3o to 95%, preferably with about 45% silicon worked towards it is, preferably in each case a ferrosilicon is added, its content of silicon is lower than that of the final product.