SU574476A1 - Method of desulfurizing molten metal - Google Patents

Description

(54) METHOD OF DESIGNING LIQUID METAL

one

The invention relates to the field of ferrous metallurgy and can be used for desulfurization of liquid metals.

Methods are known for desulfurizing a liquid metal by injecting solid reagents, where air 1 is used as a carrier gas.

The disadvantages of this method are the absence of a reducing atmosphere in the reaction zone and the expenditure of a large amount of heat to heat the carrier gas and the reactant. As a result, a decrease in the temperature of the molten metal in the reaction zone is observed, which in turn leads to a decrease in the rate of mass transfer processes and, consequently, to a decrease in the degree of use of reagents.

There is also known a method for desulfurizing molten iron by purging it with natural gas, the advantage of which is the reduction of the reducing atmosphere in the reaction zone 2. However, industrial tests of this method did not give positive results but sulfur removal.

There is a known method of desulfurizing molten iron or steel, which consists in the sale of liquid metal with natural gas in a mixture with solid reagents 3.

The advantage of this method is the presence of a reducing atmosphere created by natural gas in the reaction zone.

However, with this method, there is a high consumption of natural gas and reagents, a significant decrease in the temperature of the molten metal due to the cost of heat to heat the non-flue gas and reagents, and to decompose methane (17889 cal / mol).

The purpose of the invention is to increase the degree of use of powdered reagents and reduce the consumption of natural gas.

This is achieved by simultaneously introducing a nitrogen gas mixture in the amount of 5 nm per 1 nm of natural gas (air; air enriched with oxygen; technical oxygen) simultaneously with natural gas. As a result of the interaction of natural gas with oxygen in the reaction zone, heat is released in an amount that covers the heat needed to decompose methane and preheat the reaction products. At the same time, the atmosphere in the reaction zone will be reducing. Thus, the method makes it possible to sharply reduce the decrease in the temperature of the molten metal, several times to reduce the consumption of natural gas due to the addition of nitrogen-oxygen mixtures and to obtain

reducing atmosphere in the reaction zone. The presence of high temperatures in the reaction zone increases the use of powdered reagents.

The method is carried out as follows.

High-sulfur liquid cast iron is purged with a mixture of natural gas with air and calcium carbide (5 nm per 1 nm gas). Upon contact of the gas suspension with the molten iron, an incomplete combustion of natural gas with the release of heat occurs. In this case, the combustion products will create a reducing atmosphere in the reaction zone of calcium carbide with sulfur. In this way, the reducing atmosphere and high temperature in the reaction zone create conditions for intensifying the mass transfer process, thereby increasing the use of powdered reactants and reducing the consumption of natural gas.

In a laboratory setup, when blowing iron with propane-butane mixed with air and

Calcium carbide was observed an increase in the degree of desulfurization by 30% compared with the blowing of propane-butane with calcium carbide or air with calcium carbide.

Claims (3)

1. USSR author's certificate No. 342909, cl. From 21C 1/00, 1969. 2. Authors certificate of the USSR 144180, cl. From 21C 1/00, 1958. 3.Patent of France No. 1591331, cl. Since 21C, 1968.