METHOD FOR DIRECT REDUCTION USING VENT GAS

Abstract

A method for the direct reduction of feedstock, containing metal-oxide, to form metallic material, by contact with hot reduction gas in a reduction assembly (1): the product of the direct reduction process is discharged from the reduction assembly by a product discharge apparatus, which is flushed with seal gas, drawn off from the vent gas and subsequently dedusted. At least one portion of the dedusted vent gas is used as a combustion energy source during the production of the reduction gas, and/or as a component of a furnace fuel gas during a combustion process for heating the reduction gas, and/or as a component of the reduction gas. Apparatus for carrying out the method is disclosed.

Claims

1. A method for direct reduction of metal oxide-containing starting materials to produce metallized material by contact with hot reduction gas in a reduction unit comprising: discharging the product of the direct reduction from the reduction unit by a product discharge device, flushing the product discharge device with seal gas and drawing off vent gas and subsequently de-dusting the vent gas; and using at least part of the de-dusted vent gas as one of an energy source during combustion for producing the reduction gas by catalytic reforming, and/or a component of a furnace combustion gas of combustion for heating the reduction gas, and/or; a component of the reduction gas.

2. The method as claimed in claim 1, comprising adding de-dusted vent gas to other components of the reformer combustion gas or reduction gas is realized in a regulated manner dependent on its composition and/or its flow of the de-dusted vent gas.

3. A device for carrying out a method as claimed in claim 1, the device comprising: a reduction unit with a reduction gas supply for supplying reduction gas to the reduction unit; a reformer for producing reduction gas by catalytic reforming of gaseous hydrocarbons, and from which the reduction gas supply departs; a reformer combustion gas supply line for supplying reformer combustion gas to a combustion chamber of the reformer; a product discharge device; a seal gas supply line opening into the product discharge device; a vent gas removal line departing from the product discharge device; and the vent gas removal line opens into a wet de-dusting device, from which departs at least one diverting device for diverting de-dusted vent gas into one; the reformer combustion gas supply line and/or; the combustion chamber of the reformer.

4. A device for carrying out a method as claimed in claim 1, the device comprising: a reduction unit with a reduction gas supply for supplying reduction gas to the reduction unit; a reduction gas furnace in the reduction gas supply, into which a furnace combustion gas supply opens; a product discharge device; a seal gas supply line opening into the product discharge device; a vent gas removal line departing from the product discharge device; and a wet de-dusting device into which the vent gas removal line opens, and from which departs at least one diverting device for diverting de-dusted vent gas into the furnace combustion gas supply.

5. A device for carrying out a method as claimed in claim 1, comprising: a reduction unit with a reduction gas supply for supplying reduction gas to the reduction unit; a product discharge device; a seal gas supply line opening into the product discharge device; a vent gas removal line departing from the product discharge device; and the vent gas removal line opens into a wet de-dusting device, from which at least one diverting device for diverting de-dusted vent gas into the reduction gas supply departs for supplying reduction gas to the reduction unit.

6. The device as claimed in claim 3, further comprising at least one control device for adding de-dusted vent gas into the reformer combustion gas supply line and/or, the combustion chamber of the reformer and/or the furnace combustion gas supply and/or the reduction gas supply.

7. The method as claimed in claim 1, wherein the method is direct reduction of iron starting materials.

8. The device as claimed in claim 6, wherein the adding of the de-duster vent gas is in dependence on the composition and/or the flow of the de-dusted vent gas.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0068] The present invention will be explained on the basis of embodiments with reference to the following schematic exemplary figures.

[0069] FIG. 1 shows an embodiment of a device according to the invention.

[0070] FIG. 2 shows an embodiment of a device according to the invention, in which catalytic reforming is carried out, for example, in the manner of a MIDREX method.

[0071] FIG. 3 shows an embodiment of a device according to the invention, in which reduction gas comes from a coal gasification plant or from a COREX part of a COREX DR plant.

[0072] FIG. 4 shows a further embodiment of the device according to the invention.

DESCRIPTION OF THE EMBODIMENTS

[0073] FIG. 1 schematically shows some aspects of a device for carrying out a method according to the invention. It comprises a reduction unit 1 with a reduction gas supply 2 through which hot reduction gas is guided into the reduction unit 1. For a better overview, the illustration of the introduction of metal oxide-containing starting materials, as raw material, into the reduction unit has been omitted. Departing from the reduction unit 1 is a product discharge device 3 by way of which the product of the direct reduction is discharged from the reduction unit 1. Opening into the product discharge device 3 is a seal gas supply line 4 through which seal gas is introduced into the product discharge device in order to flush the latter with seal gas. Departing from the product discharge device 3 is a vent gas removal line 5, which is illustrated by a zigzag arrow. Vent gas from the product discharge device 3 is guided out through the vent gas removal line 5. If the product discharge device comprises for example a discharge member and a material-conveying device (these not being additionally illustrated here), it is possible for seal gas to be introduced into the discharge member, which seal gas, in part, flows into the material-conveying device and is guided out of the latter as vent gas. The material-conveying device could be for example a cellular wheel conveyor or a wiper bar. Discharged product is indicated by a cornered arrow. The vent gas removal line 5 opens into a wet de-dusting device 6 in which the vent gas is de-dusted. A diverting device 7 for diverting de-dusted vent gas departs from the wet de-dusting device 6. The following figures explain in more detail where the diverting device 7 can open into.

[0074] FIG. 2 schematically shows a device in which a reformer 8 for producing reduction gas by catalytic reforming of natural gas, for example according to the MIDREX method, is present. The reduction gas supply line 2 departs from the reformer. Reformer combustion gas is provided to the combustion chamber 12 of the reformer 8 via the reformer combustion gas supply line 9. For a better overview, the illustration of the supply of natural gas to the reformer 8 is omitted. Parts already explained on the basis of FIG. 1 are not discussed. The diverting device 7 opens into the reformer combustion gas supply line 9 and the combustion chamber 12 of the reformer 8. De-dusted vent gas can consequently be introduced into the combustion chamber 12 of the reformer 8, or admixed to the reformer combustion gas, in order to serve as an energy source during the combustion for producing the reduction gas by catalytic reforming.

[0075] FIG. 3 schematically shows a device in which a reduction gas furnace 10 is present in the reduction gas supply 2. The reduction gas may come for example from a coal gasification plant or from a COREX part of a COREX DR plant. Furnace combustion gas is provided via the furnace combustion gas supply 11. Parts already explained on the basis of FIG. 1 are not discussed. The diverting device 7 opens into the furnace combustion gas supply 11. De-dusted vent gas can consequently be used as a component of the furnace combustion gas during combustion for heating the reduction gas.

[0076] FIG. 4 schematically shows a device in which the diverting device 7 opens into the reduction gas supply 2. De-dusted vent gas can consequently serve as a component of the reduction gas which is introduced into the reduction unit 1. The reduction gas supply can depart for example from a reformer, as in FIG. 2. Thus, the de-dusted vent gas is not guided upstream of the reformer into a gas to be reformed, but is guided downstream of the reformer into the product gas of the reforming. The mixture of the product gas with the de-dusted vent gas thus forms, in FIG. 4, the reduction gas consisting of these two components. The reduction gas supply, as indicated in FIG. 3, a coal gasification plant or the COREX part of a COREX DR plant may also serve as a source for other components of the reduction gas.

[0077] A CO2 removal plant may also be present in the reduction gas supply in order also for the CO2 content to be reduced prior to its introduction into the reduction unit.

[0078] In all the figures, it is possible for a control device for adding de-dusted vent gas into the reformer combustion gas supply line and/or the combustion chamber of the reformer, or the furnace combustion gas supply, or the reduction gas supply, in dependence on the composition and/or the flow of the de-dusted vent gas to be present. This is not additionally illustrated, however, for the purpose of a better overview.

[0079] Even though the invention has been illustrated and described in more detail by way of the preferred exemplary embodiments, the invention is not restricted by the examples disclosed, and other variations may be derived therefrom by a person skilled in the art without departing from the scope of protection of the invention.

[0080] The disclosure of the present application also encompasses the entire disclosure of WO08123962, U.S. Pat. No. 4,188,022, WO2011012448 and WO2011012452 and each of them is incorporated by reference herein.

LIST OF CITATIONS

Patent Literature

[0081] WO2011012452 [0082] WO08123962 [0083] U.S. Pat. No. 4,188,022 [0084] WO2011012448

LIST OF REFERENCE SIGNS

[0085] 1 Reduction unit [0086] 2 Reduction gas supply [0087] 3 Product discharge device [0088] 4 Seal gas supply line [0089] 5 Vent gas removal line [0090] 6 Wet de-dusting device [0091] 7 Diverting device [0092] 8 Reformer [0093] 9 Reformer combustion gas supply line [0094] 10 Reduction gas furnace [0095] 11 Furnace combustion gas supply [0096] 12 Combustion chamber