RU2013110C1 - Method and device for cleaning air medium hazardous impurities in electrical steel-making furnace - Google Patents

Abstract

FIELD: cleaning of air. SUBSTANCE: method involves intaking and supplying gas into scrubber; cleaning gases and mixing them with spraying flow; discharging clean gases into atmosphere. Intake and supply of gases is effectuated by means of cylinder mounted above furnace. When gases pass through scrubber, small particles of iron and dust are removed by means of electric magnet. Neutralizing mixture is used as spraying flow. Device has furnace, scrubber with gas inlet and gas outlet branch pipes formed as cylinders with inclined bottom. Casing is divided by vertical wall, which does not reach inclined bottom. Wall is provided with drain branch pipe and sprayer formed as perforated collector and disposed in upper part of scrubber inlet section. Device has hood with cylindrical portion and angular pipeline, which is provided with corrugations at both sides and mounted above furnace. Device is further supplied with electric magnet mounted in scrubber bottom. Diameter ratio of tubes of collector-sprayer is D₁<D₂<D₃<D₄. Tubes has calibrated openings with diameters increasing as space between opening and sprayer inlet increases. EFFECT: efficient removal of impurities from air medium. 3 cl, 2 dwg

Description

 The invention relates to metallurgy, in particular to air purification in workshops with electric smelting arc furnaces for steel production.

 Known electrolyte furnace (S. A. Ryskin. Directory of ventilation installations of engineering plants. M.: Engineering, 1964, S. 237, Fig. 14) for the production of steel from ore or scrap in ladles with electrodes, where a process similar to welding occurs but on a much larger scale with the harmful emission of smoke, burning, heat, flying sparks of hot metal, electric arc glow, as well as small metal inclusions with dimensions approximately equal to cement dust, a diameter in fractions of millimeters, which is harmful to the respiratory organs, org Vision, can lead to burns and poisoning.

 To prevent the above, a rotary umbrella is installed over the ladle of the furnace, with suction ventilation. The disadvantage of the installation is that the umbrella does not clean the air, but only draws it from the stove, directing the infected air outdoors, in addition, fine metal dust cannot be trapped by the umbrella. The umbrella also does not protect others from blinding light, flying sparks, heat, etc. The invention is known by a. with. USSR N 1586780, class B 03 С 1/10, 1/24, including a cylindrical body made of non-magnetic material with inlet and outlet nozzles for pulp, a lower discharge nozzle for concentrate and aeroaerosion medium with a bubbler, located near the inclined bottom against each other, a cover with a dividing wall, additional electromagnets for creating a traveling electromagnetic field, mounted on the outer surface of the housing along a helical line with a gap relative to each other. The disadvantage of this invention is that it does not cool the pulp, does not protect service personnel from sparks and toxic gases.

 The purpose of the invention is to increase the cleaning efficiency due to the use of a hydroaerizing mixture with a neutralizer as a cooler.

 A known installation [1], containing one or more scrubbers for gas purification of cement kilns, to the upper part of which water pipes are connected: drain branches and sprinklers made in the form of a perforated collector with process tubes and located in the upper part of the scrubber inlet compartment, the latter has also inlet and outlet pipes for gas, made in the form of a cylinder with an inclined bottom and is divided by a vertical partition that does not reach the inclined bottom. The gas purification process includes the selection and supply of gas to the scrubber, cooling and mixing it with a choking stream, and the removal of purified gases into the atmosphere. The disadvantage of this is that, in relation to metallurgical electrolysis furnaces, the removal of heavy particles of iron with gas is difficult for its separation. In addition, only water without a toxic gas neutralizer is used as a choking material.

 The purpose of the invention is to increase the cleaning efficiency through the use of hydroaerosion medium with a neutralizer, which are also coolers.

 The goal is achieved in that in the method for cleaning the air from harmful impurities in the production of steel in an electric furnace, including the selection and supply of gas to the scrubber, cooling, mixing them with a choking stream, the removal of purified gases into the atmosphere, the selection and supply of gas is carried out using a cylinder installed above the furnace, and when gases pass through the scrubber, small particles of iron and dust are removed using an electromagnet, and a neutralizing mixture is used as a choking flow.

 Contaminated hot gas is sampled by pushing a transparent, darkened heat-resistant cylinder onto the electrolysis furnace for the period of entry of the electrodes into iron ore or steel scrap.

The goal is achieved in that in a device for cleaning the air from harmful impurities in the production of steel in an electric furnace containing a furnace, a scrubber with an inlet and outlet nozzles for gas, made in the form of a cylinder with an inclined bottom and separated by a vertical partition that does not reach the inclined bottom , with a drain outlet and sprinkler, made in the form of a perforated collector with process tubes located in the upper part of the input compartment of the scrubber, the device is equipped with an umbrella having a cylindrical part and an angular conduit provided with corrugations on both sides and installed above the stove, and an electromagnet arranged in the bottom of the scrubber, the pipe diameters sprinkler manifold correlate as D ₁ <D ₂ <D ₃ <D ₄ and formed with graded holes with diameters increasing by the distance from the entrance of the sprinkler. The above allows, when lowering the electrodes in an electric melting furnace, to collect contaminated air and direct it to a scrubber, where it is cooled, cleaned of dust and iron particles and neutralized with increased efficiency by reducing the resistance in the spray grid. Comparison of the claimed technical solutions with prototypes made it possible to establish compliance with their criterion of "Novelty." When studying other well-known technical solutions in this technical field, the signs that distinguish the claimed invention from the prototype were not identified and therefore they provide the claimed technical solution with the criterion of "Significant differences".

 In FIG. 1 shows the installation for the protection of foundries from the harmful effects of factors arising from the production of steel in electric furnaces; in FIG. 2 is a section AA in FIG. 1.

 According to a method for purifying the air from harmful impurities in the production of steel in an electric furnace, gas is taken and supplied to the scrubber, cooled and mixed with a choking stream, the purified gases are vented to the atmosphere, and gas is taken and supplied using a cylinder mounted above the furnace, and when gases pass through the scrubber, small particles of iron and dust are removed with the help of an electromagnet, and a neutralizing mixture, for example, a soda solution, which cleans the air well from -toxic impurities. Large particles of iron will be attracted by an electromagnet and disposed of.

 A round electric furnace 1 on rollers, equipped with electrodes 3 movable along vertical guides 2 with a diameter of 200-250 mm, is equipped with an umbrella 4 that is pushed upward from above in directions 5. The umbrella 4 is equipped with a corrugation 6 and an angled pipe 7 that rotates on the lever 8 in a horizontal plane its horizontal section is equipped with a corrugation 9 and a fan 10. A pressure pipe 11 is supplied from above to a cylindrical chamber 12 of a scrubber made of non-magnetic material. The housing is divided by a vertical partition 13, not reaching the inclined bottom. The second part of the housing is equipped with a gas outlet pipe 14, and its lower part has an inclined bottom 15 with an electromagnet 16 located at the bottom of the scrubber. At the bottom of the casing, there is an outlet pipe 17, and in its upper part, an inlet pipe 18 for introducing a hydroaericating medium with a neutralizer, pumped by a pump unit 19 along an inlet pipe 20 from an inclined sump-cooler 21 having a drain outlet 22 for dumping sludge.

The inlet nozzle 18 of the irrigator is equipped with a collector: a semicircular grid in the form of nozzles 23 diverging along the chords, the diameters of which increase D ₁ <D ₂ <D ₃ <D ₄ . The nozzles 23 are provided with graduated holes 24 with diameters d ₁ <d ₂ <d ₃ <d ₄ , increasing with distance from the entrance of the sprinkler. The umbrella 4 is provided with a concentric protective cylinder 25 made of a transparent heat-resistant, darkened material, such as mica.

 The device operates as follows.

 A round electric furnace 1 on the rollers is pushed back to load it with about seven tons of iron ore or scrap metal, after loading it is moved under an umbrella 4, then lower it, covered with a protective cylinder 25, lowering it to the upper level of the electric furnace 1 bucket, then lower the electrodes 3 into the buckets ovens. When the electrodes 3 are in contact with the contents of the electric furnace 1 when oxygen is supplied into the furnace, according to the casting process, the released gases, together with dust, sparks and iron particles, are drawn by the fan 10 and fed into the cylindrical chamber 12 into its right half. Gases pass downward, enveloping the baffle 13. At the same time, the mixture prepared by the pumping unit 19 is guided by a mixture, for example, a soda solution, through the inlet pipe 20. The mixture is choked through openings 24 along chamber 12, cools and neutralizes harmful, heated gases, and all of them enter the inclined bottom 15, where iron particles are attracted by the electromagnet 16 and are washed off together with the settled dust, heading along the outlet pipe 17 to the settling cooler 21. After cleaning and cooling, the liquid enriched in the pump room installation 19 neutralizer, again enters the process of cooling and neutralization.

 This prevents the release of toxic, highly heated gases, incandescent sparks, glare, small particles, iron and dust into the air of the foundry. Due to this, fire explosion is also reduced.

Claims (2)

 1. The method of purification of the air from harmful impurities in the production of steel in an electric furnace, including the selection and supply of gas to the scrubber, cooling and mixing them with a scent stream, the removal of purified gases into the atmosphere, characterized in that the selection and supply of gas is carried out using a cylinder installed above the furnace, and when gases pass through the scrubber, small particles of iron and dust are removed using an electromagnet, and a neutralizing mixture is used as a choking flow. 2. A device for cleaning the air from harmful impurities in the production of steel in an electric furnace, containing a furnace, a scrubber with an inlet and outlet pipes for gas, made in the form of a cylinder with an inclined bottom and separated by a vertical partition not reaching the inclined bottom, with a drain outlet and sprinkler made in the form of a perforated collector with process tubes and placed in the upper part of the input compartment of the scrubber, characterized in that it is equipped with an umbrella having a cylindrical part and an angled pipeline an ode provided with corrugations on both sides and mounted above the furnace, as well as an electromagnet located in the bottom of the scrubber, while the diameters of the pipes of the irrigation collector are correlated as D ₁ <D ₂ <D ₃ <D ₄ and are made with graduated holes with diameters increasing in diameter the distance from the entrance of the sprinkler.

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