金属矿山
金屬礦山
금속광산
METAL MINE
2015年
8期
100-105
,共6页
周政%李艳军%陈炳炎%张裕书%陈超
週政%李豔軍%陳炳炎%張裕書%陳超
주정%리염군%진병염%장유서%진초
热重分析%磁化焙烧%直接还原%深度还原%动力学
熱重分析%磁化焙燒%直接還原%深度還原%動力學
열중분석%자화배소%직접환원%심도환원%동역학
Thermogravimetric analysis%Magnetic roasting%Direct reduction%Deep reduction%Kinetic
焙烧—磁选法是处理低品位难选氧化铁矿石的有效方法。归纳了铁矿焙烧过程动力学研究常用的3种表征方法,着重介绍了基于热重分析技术的静态法和动态法在铁矿石焙烧过程动力学研究方面的运用。总结了磁化焙烧、直接还原和深度还原过程动力学近年来的研究成果。指出菱铁矿磁化焙烧过程根据TG和DTG曲线可分为两个阶段,其反应机理分别符合随机核化和核生长机理;铁矿石直接还原过程根据TG和DTG曲线分为几个阶段,再由各阶段活化能的差异分为缓慢反应阶段和快速反应阶段,由此可以找出焙烧过程的限制环节;赤铁矿在深度还原过程中经历缓慢反应—快速反应—趋于平衡3个阶段,整体反应符合随机成核及长大模型,活化能约为320 kJ/mol。指出今后应加强对实际矿石磁化焙烧动力学的研究,为实际难选矿磁化焙烧关键技术提供理论支撑;还应注重焙烧过程热力学与动力学研究的结合,对焙烧过程进行计算机模拟等方面的研究。
焙燒—磁選法是處理低品位難選氧化鐵礦石的有效方法。歸納瞭鐵礦焙燒過程動力學研究常用的3種錶徵方法,著重介紹瞭基于熱重分析技術的靜態法和動態法在鐵礦石焙燒過程動力學研究方麵的運用。總結瞭磁化焙燒、直接還原和深度還原過程動力學近年來的研究成果。指齣蔆鐵礦磁化焙燒過程根據TG和DTG麯線可分為兩箇階段,其反應機理分彆符閤隨機覈化和覈生長機理;鐵礦石直接還原過程根據TG和DTG麯線分為幾箇階段,再由各階段活化能的差異分為緩慢反應階段和快速反應階段,由此可以找齣焙燒過程的限製環節;赤鐵礦在深度還原過程中經歷緩慢反應—快速反應—趨于平衡3箇階段,整體反應符閤隨機成覈及長大模型,活化能約為320 kJ/mol。指齣今後應加彊對實際礦石磁化焙燒動力學的研究,為實際難選礦磁化焙燒關鍵技術提供理論支撐;還應註重焙燒過程熱力學與動力學研究的結閤,對焙燒過程進行計算機模擬等方麵的研究。
배소—자선법시처리저품위난선양화철광석적유효방법。귀납료철광배소과정동역학연구상용적3충표정방법,착중개소료기우열중분석기술적정태법화동태법재철광석배소과정동역학연구방면적운용。총결료자화배소、직접환원화심도환원과정동역학근년래적연구성과。지출릉철광자화배소과정근거TG화DTG곡선가분위량개계단,기반응궤리분별부합수궤핵화화핵생장궤리;철광석직접환원과정근거TG화DTG곡선분위궤개계단,재유각계단활화능적차이분위완만반응계단화쾌속반응계단,유차가이조출배소과정적한제배절;적철광재심도환원과정중경력완만반응—쾌속반응—추우평형3개계단,정체반응부합수궤성핵급장대모형,활화능약위320 kJ/mol。지출금후응가강대실제광석자화배소동역학적연구,위실제난선광자화배소관건기술제공이론지탱;환응주중배소과정열역학여동역학연구적결합,대배소과정진행계산궤모의등방면적연구。
Roasting-magnetic separation is an effective way to treat low grade and refractory iron oxide ore. Three com-monly used representation methods about dynamics research on iron ore roasting process was concluded, application of both static and dynamic methods used in iron ore roasting process based on the thermogravimetric analysis technology was empha-sized. Dynamics research on magnetization roasting, direct reduction and deep reduction process lately is summarized. It is pointed out that magnetization roasting process of siderite can be divided into two stages according to the TG and DTG curves, and its reaction mechanism meets random nucleation and growth mechanism respectively;Direct reduction process on iron ore can be divided into several stages according to the TG and DTG curve,and then classified into slow or rapid reaction stage, from which restricted link of the roasting process will be identified;Hematite will endure three stages,including slow reaction-quick reaction-tendency to equilibrium stage,in the process of deep reduction,the overall reaction fits the random nucleation and growth models,the activation energy is about 320 kJ/mol. It is pointed out that dynamics research on magnetization roasting about natural ore should be emphasized in the future,and provides theoretical support for refractory iron ore roasting key tech-nology. Closely attention should also be paid on combination of thermodynamics and dynamics research during roasting opera-tion,as well as computer simulation research during roasting.