复杂金矿物氧化焙烧-硫酸浸出-氰化法回收金银模拟计算  被引量：3

作　　者：王瑞祥[1] 刘茶香 杨裕东 袁远亮 周杰[1] 王艳阳 徐志峰[1] WANG Rui-xiang;LIU Cha-xiang;YANG Yu-dong;YUAN Yuan-liang;ZHOU Jie;WANG Yan-yang;XU Zhi-feng(Faculty of Materials Metallurgy Chemistry,Jiangxi University of Science and Technology,Ganzhou 341000,Jiangxi,China)

机构地区：[1]江西理工大学材料冶金化学学部,江西赣州341000

出　　处：《有色金属（冶炼部分）》2020年第7期69-75,共7页Nonferrous Metals（Extractive Metallurgy)

基　　金：国家自然科学基金资助项目(51564021);江西省自然科学基金资助项目(20151BAB206028)。

摘　　要：基于质量守恒、化学平衡、元素分配约束、热量守恒和指标约束等原理,构建了复杂金矿物苛性钠氧化焙烧、硫酸浸出、氰化法等工序的物料平衡和热平衡多约束控制模型,开发了复杂金矿物焙烧-酸浸-氰化工艺全流程模拟系统,计算了全流程典型工况的物质分配和能量守恒,并采用生产数据对模型进行验证。结果表明,以实际值为基准,焙烧工序中焙砂的Cu、S、Fe和SiO2含量的相对误差的百分数分别为-14.95%、-0.37%、1.77%和-6.54%;而Pb、Zn、As含量的相对误差的百分数分别为6.15%、4.94%和4.84%。酸浸分铜渣中Cu、S、Fe和SiO2含量相对误差的百分数分别为-12.90%、3.48%、5.23%和4.74%;而Pb、Zn、As含量相对误差的百分数分别为-10.75%、0和-1.27%。氰化渣中Cu、S、Zn、Fe和As含量相对误差的百分数分别为-3.57%、3.48%、5.88%、3.71%和-1.27%。Based on principles of mass conservation,chemical equilibrium,element allocation constraints,heat conservation and index constraints,a multi-constraint control model of material balance and thermal balance for process of caustic soda oxidation roasting,sulfuric acid leaching,and cyanidation to treat complex gold mineral was constructed.Whole process simulation system was exploited for complex gold mineral roasting-acid leaching-cyanidation process.Material distribution and energy conservation in typical working conditions of the whole process was calculated and validated with production data.The results show that relative errors of Cu,S,Fe,and SiO2 contents compared with real values are-14.95%,-0.37%,1.77%and-6.54%,respectively,and relative errors of Pb,Zn,and As contents are 6.15%,4.94%,and 4.84%,respectively.Relative errors of Cu,S,Fe and SiO2 contents in acid leaching copper slag are-12.90%,3.48%,5.23% and 4.74%,respectively,and relative errors of Pb,Zn,and As contents are-10.75%,0 and-1.27%,respectively.Relative errors of Cu,S,Zn,Fe,and As contents in cyanide slag are-3.57%,3.48%,5.88%,3.71%,and-1.27%respectively.

关 键 词：复杂金矿物 全流程 冶金工艺流程计算平台 模拟 

分 类 号：TF831[冶金工程—有色金属冶金]