SU132247A1 - - Google Patents

Description

METHOD OF SUPPLY NATURAL GAS TO THE DOMAIN FURNACE AND DEVICE FOR ITS IMPLEMENTATION

The proposed method of iodine gas irirody gas in the house is blended by analysis of the physicochemical processes that take place and, in the furnace, the furnace is used for gas iodine.

When injected into the oxidizing zone, the explosive gas comes into play with heated blast and coke carbon and is converted to hydrogen and carbon monoxide. At the same time, in gases that rise from the oxidative zone, the hydrogen content increases and, consequently, the amount of reducing agents, its amount of reducing agents, the arrival of oxygen and the amount of recoverable materials. As a result, the amount of iron increased indirectly by iron is increased.

Odiovremeioio decreases the relative consumption of coke from the blue line of direct reduction and from the replacement of coke carbon by carbon gas. The reduction in the relative consumption of coke is reduced by the relative quality of sulfur in the sulfur, which makes it possible to work with more slags, to reduce the consumption of coke and to increase the productivity of the furnace.

In order to preserve the norm, the tendency of the state of the hearth as a single day when the natural gas is supplied to the furnace enriches the blast with oxygen, increases its temperature and reduces or stops the humidification, and even drains it if appropriate.

The burning of the carbon of natural gas is more clearly produced by the products of grief than by the burning of the carbon of coke. Therefore, the injection of irradiated gas into the furnace with the usual 1M atmospheric blast, the theoretical temperature of the gas and the actual average temperature in the furnace will decrease with the amount of the injected gas.

The injection of 1 m of natural gas with 1 ton of iron reduces the theoretical temperature of grief to Y. This decrease in temperature can, at an average of 3.8 ° 1 1 m, be blown into the furnace of natural gas or a decrease in moisture at the rate of 1 g / lg 9, nli will be enriched with oxygen (about 1.5 m and 1 m of natural gas with the appropriate amount of oxygen.

to compensate for the reduction in temperature of the horn by blowing natural gas.

The proposed method of producing natural gas into a blast furnace allows coke savings of up to 20% or more and increases furnace productivity by more than 10%.

In order to supply natural gas to the blast furnace next to the ring air duct, a ring gas duct is arranged to blow hot air, when natural gas is supplied from the magnetic gas duct. From the annular gas pipeline it enters the furnace with the help of various devices.

A device for the delivery of gas but the proposed method differs in that in the flange of the tuyere there are several channels, directed to the inside of the tuyere, normally nln tangentially nln inclined to the inner surface.

In addition, for delivering gas, an injector, a passage of a Hz through a tuyere elbow along the axis of the nozzle or tuyere, is used.

In order to better mix the gas with the blast on the inner surface of the nozzle or tuyere from the place of nostunlen 1 gas, metal-welded metal is welded or ceramic tubes are installed for gas.

On fng. 1 shows a lance with gas channels; and FIG. 2 - two-stage sonlo; ia fng. 3 - a lance with a direction of gas; on fng. 4 - gas trough; on fng. 5 - a device for supplying gas to gas; on fng. 6 - a lance with a gas feed through the nozzle wall: a - with the help of pipes; b - with the help of forcunc.

The gas supply through the flange / tuyere 2 but several channels 3, directed into the intra lance cavity of the tuyere, is normal or tangential, or obliquely towards the inner surface of the lance, in the proposed device, which is conveniently serviced.

When a double-wall nozzle 4 is used, a very high temperature is used to blow (900-1200 °), the gas is between two steaks in the space a (fng. 2) n and goes to the inside of the nozzle through the holes b. When passing into the space and the gas is heated and cools the nozzle, increasing its service life. The outlet openings can be located normally, obliquely or tangentially but related to the inner wall of the nozzle of the tuyere nozzle, together with the blown-in gas of the second movement. With the same purpose inwardly

Spiral guiding ribs 5 can be arranged on the surface of the tuyere.

For the supply of gas, one or several tubes 6 can be used, but the passage through the cooling cavity of the tuyere 2.

When used to supply the gas of the 7 non-suction gas passing through the tuyere elbow along the axis of the furrow n the tuyere, the front outlet end of the nozzle can be installed anywhere inside the nozzle of the tuyere. A gas can be supplied with one nln several chambers, the passage of schmnn through the wall of the sonne is non-radially nlnod node with an angle to it.

Subject invention

Claims (5)

1. A method of supplying natural gas of another gas or gas with a high content of hydrocarbon to a blast furnace, characterized in that, in order to maintain the normal thermal state of the hearth, the final and products of physicochemical lerion and blue natural gas — hydrogen and carbon sechein o nechy everything, natural gas is supplied Into the oxygen zone of the nechka through tuyeres (near them), the primary blast is supplied by decreasing the temperature at o6oraHieinni with oxygen in the amount of up to 1.3-1.7 lg per 1 m of natural gas and decreasing the total moisture content of 0.4 to 0.45 g / l | 3 per 1 lg of natural gas per ton of iron. 2. The method according to claim 1, characterized in that, in order to maintain a constant temperature in the furnace, the amount of feed gas, respectively, does not change at the variable temperature to blow, its moisture content is not sufficient for oxygen enrichment. 3.ycTpoiicTBO for realizing the pi method. 1 n 2, characterized in that The gas in the flange of the tuyere is made of several channels directed into the inner cavity of the tuyere nmally or tangally, nl inclined to its inner surface. 4. A device for operating the method according to nn 1 and 2, distinguished by the fact that for gas is passed through a nozzle passing through tuyere knee along the bottom of the nozzle n tuyere. 5. The form of the device vn. 3 and 4, characterized in that, in order to better mix the gas e blown, metal parts are installed on the inner surface of the nozzle or tuyere, ceramic, for example, in the form of a gas direction. 6-6 SHE Gas Fig.i ig.2 8-B ag Fig.b