DE1931867A1 - Method and apparatus for the production of iron from iron ore - Google Patents

Description

Dr. HEINZ FEDER

- ■ Patent attorney June 20, 1969 Dr.F / Si

4 Dosseidorf

At the blow cock 77 · I. Etg r.

BRITISH STEEL CORPORATION, a British Company of 33, Grosvenor Place, London, SW l / England

Method and apparatus for the production of iron from iron ore.

The invention relates to a method for producing iron from iron ore and an apparatus for carrying out this Procedure. The method according to the invention consists in that the iron ore together with a flux in the flame a lance is introduced, which is carried by a stream of a carbonaceous fuel and a stream of oxygen or oxygen-rich air is fed, with the crushed ore and the flux in the streams of oxygen and / or the fuel are introduced and the combustion is adjusted so that at least in the flame reducing conditions exist so that the iron ore is reduced to iron as it passes through the flame, and that Iron and the resulting slag are collected in a collecting container. . ·.

The carbonaceous fuel may preferably be a liquid carbonaceous fuel such as Fuel oil, and the flux can preferably be limestone. The flux and the ore are finely ground and sieved to a grain size of less than 1.5 mm. (1/16 ") Iron ore currently falls in very large quantities in finely divided form Condition on, and the ore must be sieved before processing according to the method of the invention.

The mixture of limestone and iron ore is expediently fed to the blowing lance at a rate of 1.5 to 2.5 t / min. The ratio of iron ore to limestone is 5 "to 9 parts by weight of iron ore to one part by weight of limestone.

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The oxygen is expediently fed to the lance in an amount of 566 m ⁵ / min. (20,000 cubic feet / min) to 793 mVmin., (28,000 cubic feet / min) and the fuel oil is supplied in an amount of 500 l / min (110 gallons / min) to 600 l / min (130 gätlons / min).

The flame is expediently generated by a known one Blowing lance with several nozzles. Such a lance consists of an elongated structure, the one in the center Fuel supply line and a surrounding oxygen supply line, so that an annular flow path for the Sauereinen Material supply arises, the structure being provided at its / end with an outlet mouthpiece, with several outlet openings, each outlet opening at an angle to the Longitudinal axis of the lance standing drilling is connected to the oxygen supply line, while the fuel supply line is at its outlet end is provided with several tubes extending them, the end piece of which is within one of the oxygen-carrying tubes Pipes are arranged so that the oxygen flowing through the supply pipes flows to the outlet openings, emerges in a ring around the end of the corresponding fuel supply pipe. and in this way the fuel is located within the oxygen flow when it emerges from the outlet openings.

The tubes supplying the oxygen can have means for acceleration at their ends which surround the fuel supply tubes. of the gas flow included. The arrangement is useful so-<staltet that the central fuel supply tube displaceable in the axial direction against the elongated structure of the lance: is such that the fuel supply pipes which extend in a position within the oxygen supply pipes from the Hauptsauerstoffzüfuhl ¹ tubing, are adjustable. Is the lance intended for ^; When used with heating oil and oxygen, the building is appropriately provided with coolants in the form of an annular passage that surrounds the fuel and oxygen supply. The coolant should preferably flow downward through an annular space surrounding the oxygen supply, to the mouth:;

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piece of the lance and then upwards through an outer one Flow back annular space, which is arranged in the lance directly under the shell of the structure.

The means for accelerating the gas flow in the oxygen supply tubes can be a Venturi tube, the width of the flow opening being determined by the speed that the oxygen flow leaving the nozzle should have. An expedient embodiment consists in that the Venturi tube is formed by a constriction of the outer wall of the Eohres for the oxygen supply, the tapering conical part having an angle of 13 ° to the longitudinal axis of the Äohres and the widening conical part an angle of 7 ° against the axis.

The fuel oil fed to the flame can contain lime in the form of a slurry or the lime can be mixed with the iron ore and introducing this mixture into the oxygen stream.

An embodiment of a device for performing the The method according to the invention is shown in the figure and described below.

A multi-nozzle lance 10 in a known design with three outlet nozzles 11 is arranged so that its flame is directed into a converter vessel 131 which serves as a collecting container is. This collecting container has in its lower part an upper tap opening 15 for removing the slag and immediately at its bottom a lower tap opening 16 for discharging the iron.

The middle supply line 17 of the lance 10 is connected to a Fuel supply and the outer supply line 18, which the supply

in - ■ -

line 17 surrounds is / connection with the main oxygen supply line 19 · The oxygen is through the supply line 19 under Pressure is supplied and flows through the lance 10 in a known manner to exit through the nozzles 11. The main oxygen supply line 19 is connected to two discharge containers 20 and 21, the

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_ Zj. -
Open in parallel into the oxygen supply 19.

The first container 20 is a discharge container for the iron ore, that has a grain size of less than 1.5 mm (1/16 ") sifted and the discharge container is operated so that the Iron ore arrives in the oxygen stream and through it into the oxygen supply line of the blowing lance 10. The second container 21 is a discharge container for the limestone, which has been ground and sifted and also has a grain size of less than 1.5 mm (1/16 "). The arrangement is thus such that the oxygen entering the top of the lance is iron ore and contains limestone. A further supply of limestone and iron ore can, if desired, through the fuel supply line the lance.

Before commissioning, scrap is placed in the collecting container 13 and the supply of iron ore and limestone to the main oxygen supply line 19 is interrupted. "Fuel and oxygen are supplied to the lance 10 and the combustible mixture emerging from the nozzles 11 is ignited. The flame 12 of the lance is directed against the scrap metal in the container 13, which is melted to an iron melt in the lower part of the container 13, iiunmore the supply of limestone and iron ore in the main oxygen supply line 19 is opened and the mixture of limestone and iron ore is the lance 10 in an amount of The quantity ratio is 1.75 t iron ore, 0.25 t lime. The amount of oxygen supplied to the lance is 680 m ⁵ / min. (24,000 cubic feet / min.) and the The amount of fuel oil supplied to the lance is 544 l / min. The particles of iron ore and limestone pass through the strongly reducing flame 12 at the end of the lance 10 and the ice energy is reduced to metallic iron, while the waste materials in the ore form a slag with the limestone. The iron and slag produced in this way are collected in the collecting container 13, 13 and are withdrawn from the container through the tapping openings 15 and 16 from time to time.

The container 13 can also be equipped with auxiliary burners in order to burn the gases emerging from the blowing lance 10 to complete. _ ^

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Claims (13)

- 5-patent claims 1. A method for the production of iron from iron ore, characterized in that the iron ore is introduced together with a flux in the flame of a blowing lance which is fed by a stream of carbonaceous fuel and a stream of oxygen or oxygen-rich air, the crushed ore and the flux is introduced into the streams of oxygen and / or fuel and the combustion is adjusted so that reducing conditions exist at least in the flame, so that the iron ore is reduced to iron as it passes through the flame and iron and slag are in a collecting container collect, 2. The method according to claim 1, characterized in that the carbon-containing fuel is a hydrocarbon fuel, for example heating oil. 3. The method according to claim 1 or 2, characterized in that »that the flux is limestone. 4. The method according to claim 1, 2 or 3> characterized in that ore and flux are comminuted to a particle size of less than 1.5 mm (1/16 "). 5. The method according to any one of claims 1 to 4, characterized in that the flux and the ore are admixed with the oxygen flow and / or the fuel flow before being introduced into the flame. . Process according to Claim 5, characterized in that ore and flux are fed to the flame with the fuel in the form of a slurry. 7. The method according to any one of claims 1 to 6, characterized in that a proportion of scrap is contained in the collecting container into which the flame is directed, whereby a melt is produced in the collecting container. 9098 82/1305 • - 6 - 8. The method according to any one of claims 1 to 7, characterized in that the mixture of limestone and iron ore is fed to the lance in an amount of 1.5 to 2.5 t / min. 9. "The method according to any one of claims 1 to 8, characterized in that the mixture contains 5 to 9 parts by weight of iron ore per part by weight of limestone. 10. The method according to claim 8 or 9 » characterized in that the lance oxygen in an amount of 5.66 or / min. (20,000 cubic feet / min.) To 793 nr / min. (28,000 cubic feet / min) and fuel at a rate of 500 l / min. (110 gallons / min) to 600 l / min. (IJO gallons / fliin). 11. Device for carrying out the method according to one of claims 1 to 10, characterized in that the lance consists of an elongated structural body which has a zentrailiegende fuel supply line and a surrounding oxygen supply line, so that an annular flow path for the oxygen supply is created, the The structure is provided with an outlet mouthpiece at one end, with several outlet openings, each outlet opening being connected to the oxygen supply line via a tube at an angle to the longitudinal axis of the lance, while the fuel supply line is provided at its outlet end with several tubes which extend it End piece is arranged in each case within one of the oxygen-carrying pipes, so that the oxygen flowing through the supply pipes to the outlet openings exits in a ring around the end of the corresponding fuel supply pipe and in this way the fuel exits as it exits the outlet openings is located within the oxygen flow. 909 882/130 5 12. The device according to claim 11, characterized in that the oxygen supply pipes contain means for accelerating the gas flow emerging from the nozzles. 13. Apparatus according to claim 11 or 12, characterized in that that the central line (1?) of the lance (10) with the fuel supply and the outer line (18) is connected to the main oxygen supply line (19), which is connected to a first Outlet container (20) for the iron ore and a second Aus1aufbehälters (21) for the flux is in communication. 909882/1305 (f Blank page