DE2132666A1 - Ores and metal oxides - reduced with reducing gases esp methane in arc furnace - Google Patents

Abstract

Ores and metal oxides are electrothermally reduced by leading the ores or oxides together with reducing gases, esp. CH4, through the combustion column of an electric arc furnace and melting together pptn. in a combustion zone. Process is esp. suitable for prodn. of steel-like Fe with subsequent smelting to steel, also for reduction of Mn oxides (pyrolusite) to Mn metal and of Mn ores to Fe-Mn, and of Cr ores to Fe-Cr, with desired C-contents, also for recovery of liquid Fe from red mud from alumina processing for Al prodn.

Description

concerning processes for the electrothermal reduction of ores and Oxides It is well known that the electrothermal extraction of metals takes place in many ways in the electric arc furnace as the heat source and with coal as the reducing agent.

In contrast, the method according to the present invention enables the electrothermal reduction of ores and oxides using reducing gases.

This process is carried out in such a way that ores or oxides together with reducing gases passed through the burning column of the arc and are melted together during precipitation in the combustion zone of the same.

The preferred embodiment of the method is that a with Ores or metal oxides-laden gas flow through hollow electrodes through the fuel column of the arc is performed.

The known electric arc furnaces are generally used in which Hollow electrodes made of graphite are arranged. About caking of the ores on the electrodes to avoid, are housed in these special supply pipes. Through this one passes fine-grained to powdery ores suspended in reducing gases, which are cheaper than lumpy ones.

Methane (C H4) is preferably used as the reducing gas.

However, other gases with a strongly reducing effect can also be used be, for example humid gas.

In the arc column there is a thermal ionization of gas and Solids take place, creating a high concentration of energy with the highest temperatures is achieved, which leads to the fact that the methane is converted into elemental carbon and Hydrogen splits. In statu nascendi there is then a sudden implementation of the Ores and oxides with the reducing agents instead, which are in precipitation in the burning zone of the arc continues, all the more so than the one that was deposited with the melting material finely distributed and highly heated elemental carbon by mixing with it continues its reduction activity. In this way a weld pool is created Metals.

With this process you are in the lye, the degree of carbonization in the extracted Determine metal. If you melt the metal Lit in a stoichiowtric amount of carbon and hydrogen in the gas, the result is a low-carbon metal. Elevated if the amount of gas exceeds the actual reduction requirement, the excess is effected the carbon produced during the gas splitting is carburized accordingly of the metal.

The present method is of particular importance for the direct Steel production from iron ores. The steel-like iron obtained can be used in the the same furnace in one operation by using the usual melting technology Slag work can be fused into finished steel.

However, the present process is not based on the extraction of steel-like materials Iron and the direct manufacture of steel from iron ores are limited, rather For example, manganese oxides (brownstone? to manganese metal and manganese ores reduced to ferromanganese and chrome ore to perrochrome with any carbon content will.

According to a further feature of the invention, it is even possible from Red mud, which is found in large quantities in the processing of alumina for aluminum production accrues to win liquid iron. With the peculiarity of the red mud and as a result The firm binding of silica to the iron oxide is a separation of iron Difficult to carry out with the conventional melting process. Pür the implementation In the present process, the red mud is extracted from its moisture content by calcination released and made available for the proceedings.

Since more silica is released during melting than iron is produced, so one mixes the red mud with lime, which acts as a flux for the silica serves. In practical operation, the liquid slag is allowed to pass through an overflow channel drain in the furnace. Such a slag overflow system is also appropriate when ores of all kinds with larger proportions of foreign gangue are melted down.

Claims (1)

Claim Process for the reduction of ores and metal oxides, in particular for Extraction of steel-like iron, characterized in that ores or metal oxides together with reducing gases passed through the burning column of the arc and are melted together during precipitation in the combustion zone of the same.