Process and apparatus for producing pressed articles

The invention claimed is: 1. An apparatus for producing pressed articles containing a fine particulate direct reduced iron, the apparatus comprising: a fluidized bed reduction system comprising at least one fluidized bed reactor configured for direct reduction of fine particulate iron ore; a collection tank configured to receive fine particulate direct reduced iron produced, from the fine particulate iron ore, in the fluidized bed reduction system; a transfer line configured to transfer the fine particulate direct reduced iron produced in the fluidized bed reduction system into the collection tank; a compacting system configured to compact finely particulate material; a feed line configured to feed the fine particulate direct reduced iron from the collection tank into the compacting system; at least one dust feed line configured to feed dry fine particulate material containing at least the fine particulate iron oxide into at least one of (a) the collection tank configured to collect the fine particulate direct reduced iron, and (b) the feed line; an off-gas line for discharging off-gas extending from at least one fluidized bed reactor in the fluidized bed reduction system; and a dry dedusting apparatus for the stream of gas guided in the off-gas line, the dry dedusting apparatus arranged in the off-gas line, wherein the at least one dust feed line extends from the dry dedusting apparatus. 2. An apparatus for producing pressed articles containing a fine particulate direct reduced iron, the apparatus comprising: a fluidized bed reduction system comprising at least one fluidized bed reactor configured for direct reduction of fine particulate iron ore; a collection tank configured to receive fine particulate direct reduced iron produced, from the fine particulate iron ore, in the fluidized bed reduction system; a transfer line configured to transfer the fine particulate direct reduced iron produced in the fluidized bed reduction system into the collection tank; a compacting system configured to compact finely particulate material; a feed line configured to feed the fine particulate direct reduced iron from the collection tank into the compacting system; at least one dust feed line configured to feed dry fine particulate material containing at least the fine particulate iron oxide into at least one of (a) the collection tank configured to collect the fine particulate direct reduced iron, and (b) the feed line; and at least one withdrawal line extending from each fluidized bed reactor in the fluidized bed reduction system and configured to withdraw fine particulate direct reduced material present in the respective fluidized bed reactor, wherein the at least one dust feed line originates in the at least one withdrawal line. 3. The apparatus of claim 1 , comprising: at least one withdrawal line extending from each fluidized bed reactor in the fluidized bed reduction system and configured to withdraw fine particulate direct reduced material present in the respective fluidized bed reactor, wherein the at least one dust feed line originates in the at least one withdrawal line. 4. The apparatus of claim 1 , comprising: a dust feed line that is positioned and configured to issue into at least one of the collection tank and the feed line, wherein the dust feed line proceeds from a fine ore drying system and receives fine ore from the fluidized bed reduction system in a system assembly. 5. The apparatus of claim 1 , comprising a deduster device dust feed line that issues into at least one of the collection tank and the feed line, the dust feed line positioned and configured to lead from a dedusting device of a material conveying apparatus assigned to the fluidized bed reduction system in a system assembly. 6. The apparatus of claim 3 , wherein the withdrawal line extending from each fluidized bed reactors in the fluidized bed reduction system is configured to withdraw finely particulate direct reduced material present in the respective fluidized bed reactor before shutdown of the fluidized bed reduction system. 7. The apparatus of claim 1 , wherein the at least one dust feed line is configured to feed fine particulate iron and carbon issue into the at least one of (a) the collection tank configured to collect fine particulate direct reduced iron and (b) the feed line. 8. The apparatus of claim 2 , comprising: an off-gas line for discharging off-gas extending from at least one fluidized bed reactor in the fluidized bed reduction system; and a dry dedusting apparatus for the stream of gas guided in the off-gas line, the dry dedusting apparatus arranged in the off-gas line, wherein the at least one dust feed line extends from the dry dedusting apparatus. 9. The apparatus of claim 2 , comprising: a dust feed line positioned and configured to issue into at least one of the collection tank and the feed line, wherein the dust feed line proceeds from a fine ore drying system and receives fine ore from the fluidized bed reduction system in a system assembly. 10. An apparatus for producing pressed articles containing a fine particulate direct reduced iron, the apparatus comprising: a fluidized bed reduction system comprising at least one fluidized bed reactor configured for direct reduction of fine particulate iron ore; a collection tank configured to receive fine particulate direct reduced iron produced, from the fine particulate iron ore, in the fluidized bed reduction system; a transfer line configured to transfer the fine particulate direct reduced iron produced in the fluidized bed reduction system into the collection tank; a compacting system configured to compact finely particulate material; a feed line configured to feed the fine particulate direct reduced iron from the collection tank into the compacting system; at least one dust feed line configured to feed dry fine particulate material containing at least the fine particulate iron oxide into at least one of (a) the collection tank configured to collect the fine particulate direct reduced iron, and (b) the feed line; and a dust feed line that is positioned and configured to issue into at least one of the collection tank and the feed line, wherein the dust feed line proceeds from a fine ore drying system and receives fine ore from the fluidized bed reduction system in a system assembly.