SU1164276A1 - Method of heating open-hearth furnace - Google Patents

Abstract

A method of heating a martenovskoy furnace, including burning natural gas in regenerative air in the working space of the furnace, characterized in that, in order to reduce fuel and liquid iron consumption, as well as to increase the productivity of the furnace, part of natural gas in the amount of 1 / 60-1 / 70 Regenerative air consumption is burned in the regenerative air flow in front of the furnace working space, and the rest is burned in its working space. (L

Description

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This invention relates to ferrous metallurgy, in particular to methods for heating open-hearth furnaces.

The purpose of the invention is to reduce fuel consumption and liquid iron, as well as to increase furnace productivity.

This method was tested on a 600-ton open-hearth furnace. The furnace was heated with a mixture of natural gas and fuel oil. During certain periods of melting, the total consumption of natural gas (in accordance with thermal engineering instructions) was changed from 2.4 to

4.7tys. , fuel oil from 0.5 to

1.8t / h and regenerative air from 50 to 80 thousand. To improve the radiation characteristics

- torch natural gas in the amount of 600-1600 m / h was burned at the first point along the course of the regenerative air flow, located in the vertical channel of the furnace. Also tested mode without the supply of natural gas in the vertical channel.

The obtained characteristics of the furnace are tabulated.

From the presented data it is clear that from the point of view of the pyrometric temperature. The flame temperature is the volume ratio of the consumption of natural gas combusted in the vertical channel of the furnace to the consumption of regenerative air 1 / 60-1 / 70. Lowering this ratio below 1/60 does not lead to a rise in the pyrometric temperature of the torch. With an increase in this ratio, a significant decrease in the pyrometric temperature is observed. 4276 2

ry a torch. This temperature is especially low when operating in a known manner, i.e. when natural gas is fed into the vertical channel 5 S.

PRI me R. An average of 315 tons of scrap and 320 tons of liquid iron were loaded into a 600-ton open-hearth furnace. The total consumption of natural gas, in accordance with the heat engineering instruction, varied, for periods of melting from 2.4 to 4.7 thousand, fuel oil from 0.5 to 1.8 t / h and regenerative air from 50 to 80 thousand, Through the burners installed in the vertical channels, natural gas was supplied with its volume ratio to the consumption of regenerative air 1/65. At the same time, depending on the consumption of regenerative air, the amount of natural gas supplied to these burners was varied from 750 to 1250 m / h. The consumption of natural gas supplied to the end burners installed in the furnace heads was reduced by an appropriate amount. The pyrometric temperature of the torch when working on the proposed method on average for smelting ranged from 1800 to 1815C. According to the specified mode, 70 heats were held on the furnace. Increasing the pyrometric temperature of the flame improved heat exchange in the furnace working space, which made it possible to reduce the consumption of reference fuel by 8 kg / t, liquid iron by 10 kg / t of steel, and to reduce the duration of melting by 15 minutes.

Consumption of natural gas in the vertical channel, at the consumption of regenerative air,

50,000 60,000 70,000 80,000

Pyrometric temperature of the torch, C, at the flow rate of regenerative air,

Claims (1)

METHOD FOR HEATING THE MARTIN FURNACE, including burning natural gas. In regenerative air in the working space of the furnace, characterized in that, in order to reduce fuel and liquid iron consumption, as well as increase the productivity of the furnace, part of the natural gas in the amount of 1 / 60-1 / 70 the flow rate of regenerative air is burned in a flow of regenerative air in front of the working space of the furnace, and the rest is in its working space. >