CAJ | 학술논문

根据热力学原理,计算并分析了含锌冶金粉尘中的重要成分ZnFe2 O4在CO- CO2气体还原过程中的热力学行为. ZnFe2 O4的气体还原遵循逐级还原规律,且ZnFe2 O4很容易被CO还原到ZnO和Fe3 O4.较高温度条件下,ZnO的气体还原易于FeO的还原.随着反应温度升高,锌完全反应和挥发所需要的CO含量不断降低,当反应温度从1100 K升高到1400 K时所需的CO体积分数由0.4降低到0.01以下.要达到还原分离金属锌的目的,不必将铁氧化物还原到金属铁,而只需将铁氧化物还原到Fe3 O4或FeO,同时满足锌的还原条件即可.在高炉炉身中上部,由于发生锌的还原反应和内部循环,给高炉生产带来危害,因此应减少和控制高炉的锌负荷.
근거열역학원리,계산병분석료함자야금분진중적중요성분ZnFe2 O4재CO- CO2기체환원과정중적열역학행위. ZnFe2 O4적기체환원준순축급환원규률,차ZnFe2 O4흔용역피CO환원도ZnO화Fe3 O4.교고온도조건하,ZnO적기체환원역우FeO적환원.수착반응온도승고,자완전반응화휘발소수요적CO함량불단강저,당반응온도종1100 K승고도1400 K시소수적CO체적분수유0.4강저도0.01이하.요체도환원분리금속자적목적,불필장철양화물환원도금속철,이지수장철양화물환원도Fe3 O4혹FeO,동시만족자적환원조건즉가.재고로로신중상부,유우발생자적환원반응화내부순배,급고로생산대래위해,인차응감소화공제고로적자부하.
The reduction behavior of zinc ferrite, an important constituent of zinc-bearing metallurgical dust, with CO- CO2 gas was calculated and analyzed according to the thermodynamic principles. The reduction of ZnFe2 O4 obeys a stepwise mechanism. ZnFe2 O4 is easy to be reduced to ZnO and Fe3 O4 . ZnO is easier to be reduced than FeO, and a lower volume fraction of CO gas is needed to reduce ZnO at a higher temperature. If the reaction temperature increases from 1100 K to 1400 K, the reducing potential expressed by the volume fraction of CO decreases from 0. 4 to 0. 01. Aiming to the reduction and separation of metallic zinc from zinc-bearing dust, it is not necessary to reduce iron oxides to metallic iron, but Fe3 O4 or FeO, while zinc oxide should be reduced to metal-lic zinc. In the upper of the blast furnace, zinc reduction and internal circulation occur and bring harms to blast furnace production, and therefore the zinc load of the blast furnace should be reduced and controlled strictly.