欧阳臻等：硫化锑精矿还原固硫培烧直接产出金属锑研究 ·1331· (叶龙刚，唐朝波，唐谟堂，等.硫化锑精矿低温熔炼新工艺 [11]Awe S A,Sundkvist J E,Bolin N J,et al.Process flowsheet de- 中南大学学报（自然科学版），2012,43(9)：3338) velopment for recovering antimony from Sb-bearing copper con- [5]Gao L,Yan JG,Chen S L,et al.A new process for cleaning hy- centrates.Miner Eng,2013,49:45 drometallurgy of antimony sulfide.Central S Univ Sci Technol, [12]Jin R G,Wang Y,Li Y,et al.Behavior of gold and antimony 2012,43(1):28 during leaching of Sb-bearing gold concentrate with sodium sul- (高亮，杨建广，陈胜龙，等.硫化梯精矿湿法清洁冶金新工 fide.Nonferrous Met Extr Metall),2014(7):38 艺.中南大学学报（自然科学版），2012,43(1)：28) (新冉公，王云，李云，等.碱性硫化钠浸出含锑金精矿过程 [6]Lei T,Wang JK.Bath smelting of fuming treatment of low-grade 中金锑行为.有色金属（冶炼部分），2014(7)：38) antimony ore industry test.Nonferrous Met Extr Metall),2001 [13]Tang M T,Zhao T C.Disposing of jamesonite concentrate from (2):15 Dachang region using AC method.Nonferrous Met (Extr Metall), (雷霆，王吉坤，熔池熔炼一连续烟化法处理低品位锑矿工业 1989(6):20 试验研究.有色金属（治炼部分），2001(2)：15) (唐谟堂，赵天从.AC法处理大厂脆硫锑铅矿精矿.有色金 [7]Meng Y S,Hua Y X,Zhu F L.Effect of ZnS content on Pb-Sb 属（治炼部分），1989(6)：20) separation of PbS-Sb2S-ZnS ternary system under water vapor at- [14]Yang JG,Wu Y T.A hydrometallurgical process for the separa- mosphere.Trans Indian Inst Met,2015,68(1):37 tion and recovery of antimony.Hydrometallurgy,2014,143:68 [8]Dai X,Zhou K J,Li L B,et al.Study on oxygen-enriched volatile [15]WangC Y,Qiu D F,Jiang P H.Slurry electrolysis mechanism of bath smelting of stibnite concentrate.Min Metall,2015,24(4): complicated antimony-lead concentrate.Nonferrous Met,2003 27 55(1):25 (戴曦，周康洁，李良斌，等.辉锑矿富氧挥发熔池熔炼工艺 (王成彦，邱定蕃，江培海.脆硫锑铅矿矿浆电解机理研究 研究.矿冶，2015,24(4)：27) 有色金属，2003,55(1)：25) [9]Liu W,Luo H L,Qing W Q.et al.Investigation into oxygen- [16]Zhang Y J,Yang X W,Deng L H,et al.Leaching mechanism of enriched bottom-blown stibnite and direct reduction.Metall Mater sulfide ores in slurry electrolysis.Trans Nonferrous Met Soc Chi- Trans B,2014,45(4):1281 na,2000,10(1):105 [10]Sun K P,Xian J C.Reduction of antimony roasting products of [17]Zhang Y L,Wang C Y,Chen Y Q,et al.Plant practice of slurry antimony concentrate and separation of slag and antimony.Non- electrolysis of high arsenic gold-bearing stibnite concentrate.Non- ferrous Met Extr Metall),2001(4):2 ferrous Met Extr Metall),2014(11):16 (孙克萍，先晋聪.锑精矿非挥发焙烧产品的还原及渣锑分 (张永禄，王成彦，陈永强，等。高砷锑金精矿矿浆电解生产 离技术.有色金属（治炼部分），2001(4)：2) 实践.有色金属（冶炼部分），2014(11)：16)欧阳臻等: 硫化锑精矿还原固硫焙烧直接产出金属锑研究 (叶龙刚, 唐朝波, 唐谟堂, 等. 硫化锑精矿低温熔炼新工艺. 中南大学学报(自然科学版), 2012, 43(9): 3338) [5] Gao L, Yan J G, Chen S L, et al. A new process for cleaning hy鄄 drometallurgy of antimony sulfide. J Central S Univ Sci Technol, 2012, 43(1): 28 (高亮, 杨建广, 陈胜龙, 等. 硫化锑精矿湿法清洁冶金新工 艺. 中南大学学报(自然科学版), 2012, 43(1): 28) [6] Lei T, Wang J K. Bath smelting of fuming treatment of low鄄grade antimony ore industry test. Nonferrous Met ( Extr Metall), 2001 (2): 15 (雷霆, 王吉坤. 熔池熔炼—连续烟化法处理低品位锑矿工业 试验研究. 有色金属(冶炼部分), 2001(2): 15) [7] Meng Y S, Hua Y X, Zhu F L. Effect of ZnS content on Pb鄄鄄 Sb separation of PbS鄄鄄Sb2 S3 鄄鄄ZnS ternary system under water vapor at鄄 mosphere. Trans Indian Inst Met, 2015, 68(1): 37 [8] Dai X, Zhou K J, Li L B, et al. Study on oxygen鄄enriched volatile bath smelting of stibnite concentrate. Min Metall, 2015, 24(4): 27 (戴曦, 周康洁, 李良斌, 等. 辉锑矿富氧挥发熔池熔炼工艺 研究. 矿冶, 2015, 24(4): 27) [9] Liu W, Luo H L, Qing W Q, et al. Investigation into oxygen鄄 enriched bottom鄄blown stibnite and direct reduction. Metall Mater Trans B, 2014, 45(4): 1281 [10] Sun K P, Xian J C. Reduction of antimony roasting products of antimony concentrate and separation of slag and antimony. Non鄄 ferrous Met (Extr Metall), 2001(4): 2 (孙克萍, 先晋聪. 锑精矿非挥发焙烧产品的还原及渣锑分 离技术. 有色金属(冶炼部分), 2001(4): 2) [11] Awe S A, Sundkvist J E, Bolin N J, et al. Process flowsheet de鄄 velopment for recovering antimony from Sb鄄bearing copper con鄄 centrates. Miner Eng, 2013, 49: 45 [12] Jin R G, Wang Y, Li Y, et al. Behavior of gold and antimony during leaching of Sb鄄bearing gold concentrate with sodium sul鄄 fide. Nonferrous Met (Extr Metall), 2014(7): 38 (靳冉公, 王云, 李云, 等. 碱性硫化钠浸出含锑金精矿过程 中金锑行为. 有色金属(冶炼部分), 2014(7): 38) [13] Tang M T, Zhao T C. Disposing of jamesonite concentrate from Dachang region using AC method. Nonferrous Met (Extr Metall), 1989(6): 20 (唐谟堂, 赵天从. AC 法处理大厂脆硫锑铅矿精矿. 有色金 属(冶炼部分), 1989(6): 20) [14] Yang J G, Wu Y T. A hydrometallurgical process for the separa鄄 tion and recovery of antimony. Hydrometallurgy, 2014, 143: 68 [15] Wang C Y, Qiu D F, Jiang P H. Slurry electrolysis mechanism of complicated antimony - lead concentrate. Nonferrous Met, 2003, 55(1): 25 (王成彦, 邱定蕃, 江培海. 脆硫锑铅矿矿浆电解机理研究. 有色金属, 2003, 55(1): 25) [16] Zhang Y J, Yang X W, Deng L H, et al. Leaching mechanism of sulfide ores in slurry electrolysis. Trans Nonferrous Met Soc Chi鄄 na, 2000, 10(1): 105 [17] Zhang Y L, Wang C Y, Chen Y Q, et al. Plant practice of slurry electrolysis of high arsenic gold鄄bearing stibnite concentrate. Non鄄 ferrous Met (Extr Metall), 2014(11): 16 (张永禄, 王成彦, 陈永强, 等. 高砷锑金精矿矿浆电解生产 实践. 有色金属(冶炼部分), 2014(11): 16) ·1331·