电解金属锰技术现状及发展趋势
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摘要
我国电解锰产业起步于1958年,发展至今已有60余年的历史,文章对我国电解金属锰技术及其发展趋势进行了综述,分析其存在的问题和现状,并展望未来的发展方向。
China's electrolytic manganese industry started in 1958 and has been developing for more than 60 years.This paper summarizes China's electrolytic manganese technology and its development tendency,analyzes its existing problems and current situation,and looks forward to the future development direction.
China's electrolytic manganese industry started in 1958 and has been developing for more than 60 years.This paper summarizes China's electrolytic manganese technology and its development tendency,analyzes its existing problems and current situation,and looks forward to the future development direction.
引文
[1]谭柱中.发展中的中国电解金属锰工业[J].中国锰业,2003,21(4):1-5.
[2]谭柱中,张云丽.中国电解金属锰工业研究进展[J].中国锰业,2019,37(2):19-21.
[3] Almand A J,Campbell A N.The electrodeposition of manganese-Part[J].Transactions of the Faraday Society,1924,19:559-570.
[4]谭柱中,梅光贵,李维健,等.锰冶金学[M].湖南:中南大学出版社,2004.
[5] Lewis I E,Scaife P H,Swinkels D A J.Electrolytic manganese metal from chloride electrolytes.Ⅱ.Effect of additives[J].Journal of Applied Electrochemistry,1976,6(5):453-462.
[6] Fan X,Xi S,Sun D,et al.Mn-Se interactions at the cathode interface during the electrolytic-manganese process[J].Hydrometallurgy,2012,127:24-29.
[7] Vinceti M,Wei E T,Malagoli C,et al.Adverse health effects of selenium in humans[J].Rewiews on environmental health,2001,16(4):233-252.
[8] Edelman P.Environmental and workplace contamination in the semiconductor industry:implications for future health of the workforce and community[J].Environmental health perspectives,1990,86:291.
[9] James H J et al.Electrolytic manganese:[P].USA;2805195,1957-09-03.
[10] Michael C,Carosella.Electrolytic manganese:[P].USA:2750338,1956-06-12.
[11] Frank S,Griffith,Palmerton.Recovery of manganese by electrolysis:[P].USA:2497725,1950-02-14.
[12] Mráz R,Krysa J.Long service life Ir O2/Ta2O5 electrodes for electroflotation[J].Journal of Applied Electrochemistry,1994,24(12):1262-1266.
[13] Trasatti S.Electrocatalysis:understanding the success of DSA[J].Electrochimica Acta,2000,45(15-16):2377-2385.
[14] Duan N,Fan W,Changbo Z,et al.Analysis of pollution materials generated from electrolytic manganese industries in China[J].Resowrces Conservation and Recycling,2010,54(8):506-511.
[15]张文山,梅光贵,李基发.电解锰阴离子交换膜电解新技术研究[J].中国锰业,2011,29(4):17-19.
[16]吴安东.菱锰矿粉和锰电解液中氯离子的脱除及脱氯铜盐的回收研究[D].兰州:兰州大学,2015.
[17] Kanungo SB,Mishra SK,Biswal D.Beneficiation of low-grade,high-phosphorus manganese ores of Andhra Pradesh,India,by wet high-intensity magnetic separation plus jigging or hydrocyclone classification[J].Mining,Metallurgy&Exploration,2000,17(1):269-275.
[18]孙思.高磷锰矿机械选矿及化学选矿脱磷研究[D].重庆:重庆大学,2012.
[19]张永伟.高磷锰矿微波辐射—强磁选联合工艺试验研究[J].中国锰业,2005,23(4):18-20.
[20]崔恩静,任金菊,马晶,等.高磷低锰难选矿石除磷提高锰矿品位试验研究[J].有色金属(选矿部分),2004,3:36-39.
[21] Kanungo SB,Mishra SK.Dephosphorization of high-phosphorous manganese ores from Andhra Pradesh and southern Orissa,India,by roasting[J].Mining,Metallurgy&Exploration,2000,17(1):37-40.
[22]陈继斌.还原焙烧-氨浸法处理松桃高磷锰矿石的试验[J].中国锰业,1994,12(2):43-47.
[23]彭志坚,陈铁军,彭锋.高硫锰矿脱硫的试验研究[J].中国锰业,2003,21(4):33-36.
[24]王青,刘承宪.菱锰矿与菱铁矿的浮选分离及其作用机理研究[J].金属矿山,1993,46(8):39-43.
[25]谭建红,万邦江,李兵.高铁菱锰矿制取硫酸锰的工艺研究[J].无机盐工业,2014,46(8):50-52.
[26]徐扬,王海峰,任倩,等.高铁菱锰矿浸出液碱化法除铁实验研究[J].广东化工,2015,46(16):31-32.
[27]周灵灵,王海峰.从高铁菱锰矿中酸浸锰铁试验研究[J].湿法冶金,2015,34(5):373-375.
[28]袁明亮,宋聪.高磷高铁氧化锰矿硫酸化焙烧与水浸制备锰电解液[J].过程工程学报,2012,12(6):968-972.
[29]蔡大为.我国电解金属锰技术现状及其研究方向[J].中国锰业,2009,27(3):12-16.
[30]文蓉,甘利华,杨勇,等.电解金属锰的专利分析与展望[J].中国锰业,2017,35(2):113-116.
[2]谭柱中,张云丽.中国电解金属锰工业研究进展[J].中国锰业,2019,37(2):19-21.
[3] Almand A J,Campbell A N.The electrodeposition of manganese-Part[J].Transactions of the Faraday Society,1924,19:559-570.
[4]谭柱中,梅光贵,李维健,等.锰冶金学[M].湖南:中南大学出版社,2004.
[5] Lewis I E,Scaife P H,Swinkels D A J.Electrolytic manganese metal from chloride electrolytes.Ⅱ.Effect of additives[J].Journal of Applied Electrochemistry,1976,6(5):453-462.
[6] Fan X,Xi S,Sun D,et al.Mn-Se interactions at the cathode interface during the electrolytic-manganese process[J].Hydrometallurgy,2012,127:24-29.
[7] Vinceti M,Wei E T,Malagoli C,et al.Adverse health effects of selenium in humans[J].Rewiews on environmental health,2001,16(4):233-252.
[8] Edelman P.Environmental and workplace contamination in the semiconductor industry:implications for future health of the workforce and community[J].Environmental health perspectives,1990,86:291.
[9] James H J et al.Electrolytic manganese:[P].USA;2805195,1957-09-03.
[10] Michael C,Carosella.Electrolytic manganese:[P].USA:2750338,1956-06-12.
[11] Frank S,Griffith,Palmerton.Recovery of manganese by electrolysis:[P].USA:2497725,1950-02-14.
[12] Mráz R,Krysa J.Long service life Ir O2/Ta2O5 electrodes for electroflotation[J].Journal of Applied Electrochemistry,1994,24(12):1262-1266.
[13] Trasatti S.Electrocatalysis:understanding the success of DSA[J].Electrochimica Acta,2000,45(15-16):2377-2385.
[14] Duan N,Fan W,Changbo Z,et al.Analysis of pollution materials generated from electrolytic manganese industries in China[J].Resowrces Conservation and Recycling,2010,54(8):506-511.
[15]张文山,梅光贵,李基发.电解锰阴离子交换膜电解新技术研究[J].中国锰业,2011,29(4):17-19.
[16]吴安东.菱锰矿粉和锰电解液中氯离子的脱除及脱氯铜盐的回收研究[D].兰州:兰州大学,2015.
[17] Kanungo SB,Mishra SK,Biswal D.Beneficiation of low-grade,high-phosphorus manganese ores of Andhra Pradesh,India,by wet high-intensity magnetic separation plus jigging or hydrocyclone classification[J].Mining,Metallurgy&Exploration,2000,17(1):269-275.
[18]孙思.高磷锰矿机械选矿及化学选矿脱磷研究[D].重庆:重庆大学,2012.
[19]张永伟.高磷锰矿微波辐射—强磁选联合工艺试验研究[J].中国锰业,2005,23(4):18-20.
[20]崔恩静,任金菊,马晶,等.高磷低锰难选矿石除磷提高锰矿品位试验研究[J].有色金属(选矿部分),2004,3:36-39.
[21] Kanungo SB,Mishra SK.Dephosphorization of high-phosphorous manganese ores from Andhra Pradesh and southern Orissa,India,by roasting[J].Mining,Metallurgy&Exploration,2000,17(1):37-40.
[22]陈继斌.还原焙烧-氨浸法处理松桃高磷锰矿石的试验[J].中国锰业,1994,12(2):43-47.
[23]彭志坚,陈铁军,彭锋.高硫锰矿脱硫的试验研究[J].中国锰业,2003,21(4):33-36.
[24]王青,刘承宪.菱锰矿与菱铁矿的浮选分离及其作用机理研究[J].金属矿山,1993,46(8):39-43.
[25]谭建红,万邦江,李兵.高铁菱锰矿制取硫酸锰的工艺研究[J].无机盐工业,2014,46(8):50-52.
[26]徐扬,王海峰,任倩,等.高铁菱锰矿浸出液碱化法除铁实验研究[J].广东化工,2015,46(16):31-32.
[27]周灵灵,王海峰.从高铁菱锰矿中酸浸锰铁试验研究[J].湿法冶金,2015,34(5):373-375.
[28]袁明亮,宋聪.高磷高铁氧化锰矿硫酸化焙烧与水浸制备锰电解液[J].过程工程学报,2012,12(6):968-972.
[29]蔡大为.我国电解金属锰技术现状及其研究方向[J].中国锰业,2009,27(3):12-16.
[30]文蓉,甘利华,杨勇,等.电解金属锰的专利分析与展望[J].中国锰业,2017,35(2):113-116.