由于含有大量的黄铁矿和白铁矿(它们约占原矿的70%,质量分数),以及闪铅矿一定程度上的氧化,云南澜沧铅矿股份有限公司所产的富银硫化矿难以富集.本文通过对该矿在90-170℃下氧压酸浸,以期连同后面的氰化能提取精矿中的银.通过进行2L高压釜的小型试验,考察了温度、酸度、碘化钠用量、氧分压、氧气流速对银和锌回收率的影响.结果表明,银的回收率取决于银是否进入黄钾铁矾渣,或者与碘化钠反应生成碘化银沉淀.在优化的条件下,银和锌的回收率分别达到71.5%和41.29%.
The beneficiation of silver-bearing lead-zinc-iron sulfide concentrate from Yunnan Lancang Lead Ore Co.,Ltd is very difficult because of existence of great deal of pyrite and marcasite with content up to 70%,and the a-certain-extent oxidation of galena to yellow lead.In the present work,acid pressure oxidative leaching of such complex sulfide was investigated at the temperature ranging 90~170℃ to shed new light on the deportment of silver from the source concentrates to the residue with subsequent recovery by cyanidation.Lab-scale leaching experiments were conducted in a 2L autoclave to investigate the influences of temperature,acidity,sodium iodide usage,oxygen partial pressure,oxygen flow rate on the recoveries of silver and zinc.The results obtained show that the recovery of silver depends on whether the leached silver is incorporated into jarosite or convened into silver iodide by reaction with sodium iodide.Under optimum conditions,recoveries of silver and zinc can reach 71.5% and 41.29%,respectively.
参考文献
| [1] | Branan C R.Process Evaluation[M].Rules of Thumb for Chemical Engineers,2005:240-273. |
| [2] | Liang D;Wang;Wang Y .Simul taneous acid pressure leaching of silrer-bearing low-grade manganese ore and sphalerite concentrate[J].Precious Metals,2008,29(02):28-33. |
| [3] | S.A. Bolorunduro;D.B. Dreisinger;G. Van Weert .Fundamental study of silver deportment during the pressure oxidation of sulphide ores and concentrates[J].Minerals Engineering,2003(8):695-708. |
| [4] | Bruckard W J;Sparrow G J;Woodcock J T .Gold and silver extraction from Hellyer lead-zinc flotation middlings using pressure oxidation and thiourea leaching[J].Hydrometallurgy,1993,33(1-2):17-41. |
| [5] | P. Peng;H. Xie;L. Lu .Leaching of a sphalerite concentrate with H_2SO_4-HNO_3 solutions in the presence of C_2Cl_4[J].Hydrometallurgy,2005(4):265-271. |
| [6] | Weisener C G;Smart R St C;Gerson A et al.Comparison of the kinetics and mechanism of acid leaching of sphalerite containing low and high concentrations of iron[J].International Journal of Mineral Processing,2004,74(1-4):239-249. |
| [7] | Dobrokhotov G N;Onuchkina N I .Kinetics of autoclave leaching of sphalerite[J].Izvestiya Vysshikh Uchebnykh Zavedenii Chernaya Metallurgiya,1964,7(05):51-57. |
| [8] | Verban B;Crondwell F K .An electrochemical model for the leaching of a sphalerite concentrate[J].Hydrometallurgy,1987,16(02):345-359. |
| [9] | S.A. Bolorunduro;D.B. Dreisinger;G. Van Weert .Zinc and silver recoveries form zinc-lead-iron complex sulphides by pressure oxidation[J].Minerals Engineering,2003(4):375-389. |
| [10] | Tien H T;Harrington G W .Precipitation of silver(Ⅰ)halides in molten lithium nitrate eutectic[J].Inorganic Chemistry,1963,2(02):369-372. |
| [11] | Gavrish M L;Galinker I S.Salt solubilities at high temperatures[J].Doklady Akademii Nauk SSSR,1955:89-91. |
| [12] | Parker E G .Oxidative pressure leaching of zinc concentrates[J].CIM Bulletin,1981,74:145-150. |
| [13] | Dutrizac J E;Chen T T .A mineralogical study of the jarosite phase formed during the autoclave leaching of zinc concentrate[J].Canadian Metallurgical Quarterly,1984,23(04):147-157. |
| [14] | Van Weert G;Tuinman I L.Prevention of silver jarosite formation through the addition of iodine species[A].Reno,Nevada,CA,1993:93-59. |
| [15] | Collins M J;Doyle B N;Ozberk E.The zinc pressure leaching process applications[A].The Minerals Metals and Materials Society,1990:293-311. |
| [16] | 李潇雨,王新利,李威,刘道荣,陈春发.云南澜沧老厂银铜铅锌矿床地质特征及成因研究[J].四川地质学报,2007(01):25-30. |
| [17] | 王新利,庞艳春,黄霂莲,孙利勋,李威.澜沧老厂银铜铅锌多金属矿床地质特征及成因探讨[J].地质与资源,2006(03):200-204,221. |
| [18] | Dobrokhotov G N;Onuchkina N I .Kinetics of autoclave leaching of sphalerite[J].Izvestiya Vysshikh Uchebnykh Zavedenii Aviatsionaya Tekhnika,1964,7(05):51-57. |
| [19] | Verban,B;Crundwell,F.K .An electrochemical model for the leaching of a sphalerite concentrate[J].Hydrometallurgy,1987,16(02):345-359. |
| [20] | Dutrizac J E;Dinardo O;Kaiman S .Factors affecting lead jarosite formation[J].Hydrometallurgy,1980,5(03):305-324. |
| [21] | Romero R;Palencia I;Carranza F .Silver catalyzed IBES process:application to a Spanish copper-zinc sulphide concentrate:Part 3.Selection of the operational parameters for a continuous pilot plant[J].Hydrometallurgy,1998,49(1-2):75-86. |
| [22] | Scott T R.Continuous,co-current,pressure leaching of zinc-lead Concentrates under acid Conditions[A].New york:AIME,1973:718-750. |
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