| 摘要 |
<p>1524987 Direct redution of ores FIERRO ESPONJA SA 29 Sept 1975 [ 18 Oct 1974] 39818/75 Heading C7D In the direct reduction of ores, of e.g. Fe, Cu, Ni or Sn, in a plurality of reactors comprising a cooling reactor and at least one reduction reactor (the reactors all performing interchangeable functions) the cooling reactor is part of a cooling gas loop which is supplied with cool reducing gas (CO+H 2 ) from a reformer separately from the reducing gas supply to the reduction reactor(s). The apparatus shown has five reactors of which at any time one is charging and discharging, three are reducing and one is cooling. The figure shows the stage where reactors 12, 14, 16 are reduction reactors, reactor 18 is the charging reactor, and 10 is the cooling reactor, reactor 16 performing initial reduction, reactor 14 intermediate reduction and reactor 12 final reduction. The CO/H 2 mixture produced from CH 4 and steam in reformer 20 is cooled at 64 and fed to header 66 from which part goes to reactor 12 via heater 74 and combustion chamber 12a (such that it enters the reactor at 900-1100‹C in the case of Fe ore). The gas leaving reactor 12 is cooled at 86, heated at 92 and 14a, and fed to reactor 14, the exit gas being sent to to reactor 16 in the same way. The reactor at the cooling stage, in this case reactor 10, is fed with cool gas from header 66 through pump 182 into pipe 184, the gas leaving at 186 being cooled at 188 and recycled to pump 182 via line 190. Gas is removed from the loop thus formed by pipe 194, the gas removed either returning to header 66 via pipe 198, or by pipe 202 to supply heat to the burners 22, 74, 92, 110 etc., to storage 156 or via pipes 138, 130 to the gas supplied to heater 74. During cooling of the reduced material, some further reduction takes place, and carbon may be deposited on the reduced material by cracking, the amount of carbon deposited being controllable by introducing any of CO, CO 2 , H 2 , CH 4 N 2 to the loop through pipe 206. The ore is preferably in lump or pellet form. At the end of each cycle, the reactor functions are switched, reactor 18 effecting initial reduction, reactor 12 becoming the cooling reactor, etc.</p> |
