SU808535A1 - System for gas outlet from loading device of blast furnace - Google Patents

Description

The invention relates to the area of ferrous metallurgy and can be applied on blast furnaces to capture and remove gas from the charging device for gas cleaning. A system is known for the removal and purification of gases from the interconusal space, which consists of an irrigated gas pipeline with an involute func- tion separator connected to the collector of purified gas from the blast-furnace gas cleaning. The connection of gas cleaning is made by equalizing valves for gas emission, gas cleaning and atmospheric gas emission valve from cone space to atmosphere. The system for cleaning gas emissions from the inter-conical space works due to the pressure difference in the inter-conical space and the collector of the purified gas of the blast furnace gas cleaning. Before opening the equalizing valve for the discharge of gases to the gas discharge, the pressure of the gases in the cone space is much higher than the pressure of the cleaned one. gas in the blast-gas collector, due to which, during the opening of the balancing gas; the ejection valve, the gas from the cone space enters the irrigated flue, where it is about cleaning. For drying, the gases from the irrigated gas coolant enter the separator, where the gases are separated from the water. The dried gases from the separator enter the manifold of the purified gas of the blast furnace gas purification, and the water with the specified dust is discharged from the separator through the -Hydromator. After equalizing the pressure of the gases in the inter-conical space, the discharge valve closes, while the pressure of the gases in the inter-conical space remains above atmospheric, which prevents it from making it difficult for the small cone to work normally. To create normal conditions for {care of a small cone, the atmospheric valve opens and the dusty gases remaining in the conical space are emitted into the atmosphere through a candle.

The known system is simple, but the degree of cleaning of the grooves is relatively low. In addition, gas cleaning is not provided, thrown out through a candle. the atmosphere, and gas and dust emission during the operation of the charging device, i.e. trapping of the exhausted air,

when skip is emptied and when a small cone is lowered.

Also known is a system for withdrawing and purifying gas from the inter-conic space, consisting of equalizing valves, irrigated gas pipelines with irrigation nozzles, scrubber, Venturi tube included in the drip pan installed behind the throttle gas blasting group.

The known system of cleaning of gases from the interconusal space provides a high degree of purification of gases, but it has the same drawbacks as the previous one.

The purpose of the invention is the elimination of dust emissions from the receiving device of the boot device and the elimination of emissions of gas-air mixture from the cone space into the atmosphere.

The goal is achieved by the fact that the receiving funnel of the loading device is connected to the low-pressure gas cleaning unit by a gas intake nozzle and provided with a lid covering half of the input section of the receiving funnel.

In addition, the atmospheric candle is connected to the gas intake. a pipe connecting the receiving hopper of the charging device with low pressure gas cleaning.

The drawing shows the proposed system, an option with additional gas cleaning.

The system contains a skip 1, a loading device consisting of a receiving fixed funnel 2, a rotating distributor 3, the bottom of which is a small cone 4, which together with the large cone 5 forms an interconus space 6, which is connected by equalization valve 7 with gas cleaning 8 emissions ( shown conditionally). Candle 9 (shown by dashed lines) is cut off and the equalizer valve 10 connects pipe-i conduit 11 to gas inlet 12, one end of which is welded into the receiving funnel 2 under the cover 13, which covers half of the input section of the receiving funnel 2.

The other end of the gas inlet pipe 12 is docked with the pipe 14, which supplies gases to the low-pressure apparatus 15

cleaning installed in front of the booster 16 t gi, the exhaust pipe of which is connected to the chimney 17, the mouth of which is equipped with a device 18 for the afterburning of carbon monoxide (if necessary).

The device works as follows.

When skip 1 overturns, the dust freed from the charge is picked up by atmospheric air and sucked into the receiving funnel 2, which eliminates pollution of the atmosphere. From the receiving funnel 2, the dusty atmospheric air through the z & inlet nozzle 12, the pipeline 14 enters the -15 apparatus of the low pressure gas cleaning, where the gases are cleaned. Composition of gas cleaning devices

; not regulated and chosen in each case depending on

 physical and chemical properties of the applied mixture. Suction of the gas-air mixture from the receiving funnel 2 is performed by continuously operating a booster of 16 tons of gas. When filling the charge of the receiving part of the boot device, the charge is crushed, i.e., additional dust formation. As the receiving device of the charging device is filled with the charge, the air inside it is expelled and together with the dust is sucked in

from the boot to the gas cleaning. In this case, the ejection of the dusty air through the inlet section of the receiving funnel 2 is excluded, since air drawn in from the atmosphere flows towards this flow.

Before pouring the mixture from a small cone 4 to a large cone 5 in the inter-

 Gas space 6 is possible; pressure of gases equal to the pressure at the top, d. 15-25 m of water. Art. At this pressure, the small cone does not lower, and the drive mechanism may break. For this reason, valve 7 and 5 are actuated. The gases from the interconusal space are reset to gas cleaning 8 emissions, and the pressure of gases in the cone space drops to the pressure of gases in the collector of purified gas from blast furnace gas), i.e. to 1 - 3 m of water. Art. However, fi at this pressure, the work of loading the device of the device is difficult or impossible.

In order to discharge the residual gases from the 5 cone space after the valve 7 is closed, the valve-10 opens, and the gases ib of the cone space through the pipe 11 enter the gas intake

Claims (2)

Formula invented by i · 1. The system of removal of gases from the charging device of the blast furnace, containing 25 Shaya gas pipelines connecting the interconusal space with gas cleaning emissions and with an atmospheric candle, are distinguished by the fact that, in order to eliminate dust emissions from the receiving hopper of the loading device, the receiving hopper of the loading device is connected to the low-pressure gas cleaning system with a gas outlet and equipped with half of the input section. . 2. System pop. 1, characterized in that, in order to exclude emissions of the gas-air mixture from the inter-conical space into the atmosphere, the atmospheric candle is connected to the gas intake - with a new pipe ..