欢迎登录材料期刊网

材料期刊网

高级检索

研究金属黑色页岩在过硫酸钠酸性溶液中的氧化浸出行为。考察了反应温度、浸出时间、搅拌速度、过硫酸钠和硫酸的浓度、矿物颗料的尺寸等因素对氧化浸出速度的影响。结果表明:黑色页岩中钼、镍和铁的浸出行为受化学反应速度控制,浸出过程的动力学模型为1?(1?a)1/3=kt,且钼、镍及铁的表观活化能分别为34.50,43.14和71.79 kJ/mol;对于过硫酸钠,钼、镍和铁的反应级数分别为0.80,1.01和0.75;对于硫酸,钼、镍和铁反应级数分别为0.45,0.75和0.50。此外,对金属黑色页岩的溶解反应机理进行了探讨。

The oxidative dissolution of metalliferous black shale in sulfuric acid solution using sodium persulfate as an oxidant was investigated. The effects of leaching factors including leaching temperature, leaching time, stirring speed, initial concentration of sodium persulfate and sulfuric acid and particle size on the leaching rate were studied as well. The leaching kinetics of molybdenum, nickel and iron from metalliferous black shale shows that the leaching rate is controlled by a chemical reaction through a layer on the unreacted shrinking core. The leaching process follows the kinetics model 1?(1?a)1/3=kt with apparent activation energies of 34.50, 43.14 and 71.79 kJ/mol for Mo, Ni and Fe, respectively. The reaction orders in sodium persulfate are 0.80, 1.01 and 0.75 for molybdenum, nickel and iron, respectively, while in sulfuric acid, these orders are 0.45, 0.75 and 0.50 for molybdenum, nickel and iron, respectively. In addition, the reaction mechanism for the dissolution of the metalliferous black shale was discussed.

参考文献

[1] Agrawal A;Bagchi D;Kumari S;Kumar V;Pandey BD.Recovery of nickel powder from copper bleed electrolyte of an Indian copper smelter by electrolysis[J].Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems,20073(3):133-139.
[2] Bohdan Kribek;Ivana Sykorova;Jan Pasava.Organic geochemistry and petrology of barren and Mo-Ni-PGE mineralized marine black shales of the Lower Cambrian Niutitang Formation (South China)[J].International Journal of Coal Geology,20073/4(3/4):240-256.
[3] Mingyu Wang;Xuewen Wang.Extraction of molybdenum and nickel from carbonaceous shale by oxidation roasting, sulphation roasting and water leaching[J].Hydrometallurgy,20101/4(1/4):50-54.
[4] Jian Cao;Kai Hu;Jie Zhou;Chunhua Shi;Lizeng Bian;Suping Yao.Organic clots and their differential accumulation of Ni and Mo within early Cambrian black-shale-hosted polymetallic Ni-Mo deposits, Zunyi, South China[J].Journal of Asian earth sciences,2013Jan.30(Jan.30):531-536.
[5] Zhongwei Zhao;Jiangtao Li;Caifang Cao;Guangsheng Huo;Gang Zhang;Honggui Li.Recovery and purification of molybdenum from Ni-Mo ore by direct air oxidation in alkaline solution[J].Hydrometallurgy,20101/4(1/4):68-73.
[6] Orberger B;Vymazalova A;Wagner C;Fialin M;Gallien JP;Wirth R;Pasava J;Montagnac G.Biogenic origin of intergrown Mo-sulphide- and carbonaceous matter in Lower Cambrian black shales (Zunyi Formation, southern China)[J].Chemical geology,20073-4(3-4):213-231.
[7] 潘家永;马东升;夏菲;陈少华;曹双林;郭国林;谢贵珍.湘西北下寒武统镍-钼多金属富集层镍与钼的赋存状态[J].矿物学报,2005(3):283-288.
[8] 陈家武;高从增;张启修;肖连生;张贵清.膜生物反应器浸出镍钼矿[J].中国有色金属学报(英文版),2011(6):1395-1401.
[9] 陈代雄;唐美莲;薛伟;徐艳;谢超.高碳钼镍矿可选性试验研究[J].湖南有色金属,2006(6):9-11,66.
[10] 刘建东;孙伟;苏建芳;孙磊;张刚;胡岳华.Blashale promoter捕收剂浮选黑色岩系镍钼矿的试验研究[J].金属矿山,2010(1):90-92,98.
[11] 吴海国.含碳镍钼矿提取镍钼冶炼新工艺试验研究[J].湖南有色金属,2008(02):16-18.
[12] Mingyu Wang;Xuewen Wang;Wanli Liu.A novel technology of molybdenum extraction from low grade Ni-Mo ore[J].Hydrometallurgy,20091/2(1/2):126-130.
[13] 肖朝龙;肖连生;龚柏藩;郭超.镍钼矿全湿法浸出工艺研究[J].稀有金属与硬质合金,2010(4):1-5,23.
[14] Weiping Liu;Hui Xu;Xiyun Yang.Extraction of molybdenum from low-grade Ni-Mo ore in sodium hypochlorite solution under mechanical activation[J].Minerals Engineering,201114(14):1580-1585.
[15] P. Canizares;F. Larrondo;J. Lobato.Electrochemical Synthesis of Peroxodiphosphate Using Boron-Doped Diamond Anodes[J].Journal of the Electrochemical Society,200511(11):D191-D196.
[16] 薛娟琴;卢曦;杜业威;毛维博;王玉洁;李京仙.硫化镍精矿超声波辅助氧化浸出特性[J].中国化学工程学报(英文版),2010(6):948-953.
[17] Zhongwei Zhao;Gang Zhang;Guangsheng Huo.Kinetics of atmospheric leaching molybdenum from metalliferous black shales by air oxidation in alkali solution[J].Hydrometallurgy,20093/4(3/4):233-236.
[18] T.A.Lasheen;M.E.EI-Ahmady;H.B.Hassib;A.S.Helal.Oxidative leaching kinetics of molybdenum-uranium ore in H2SO4 using H2O2 as an oxidizing agent[J].化学科学与工程前沿,2013(01):95-102.
[19] Amin Khoshnevisan;Hosein Yoozbashizadeh;Mahdi Mozammel;Seyed Khatiboleslam Sadrnezhaad.Kinetics of pressure oxidative leaching of molybdenite concentrate by nitric acid[J].Hydrometallurgy,2012:52-57.
[20] S.C. Bouffard;B.F. Rivera-Vasquez;D.G. Dixon.Leaching kinetics and stoichiometry of pyrite oxidation from a pyrite-marcasite concentrate in acid ferric sulfate media[J].Hydrometallurgy,20063/4(3/4):225-238.
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%