碱性调整剂在某羟硅铍石浮选中的应用研究
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摘要
针对某羟硅铍石浮选的难题,采用四种碱性药剂(氟化钠、碳酸钠、硫化钠、六偏磷酸钠)作调整剂,进行羟硅铍石浮选的探索试验。结果表明,当四种药剂用量分别为400、1 500、2 000、50 g/t的条件下,浮选指标较佳,精矿Be O品位为3.24%,回收率75.29%。矿浆浮选溶液化学结果表明,在矿浆p H值为11的情况下,这四种碱性调整剂各自的优势组分分别是F-、CO2-3、HS-、HPO2-4。
In order to solve the problem of flotation of bertrsandite,four kind of alkaline reagents,including sodium fluoride,sodium carbonate,sodium sulphide and sodium hexametaphosphate,were used as regulators to explore the flotation of bertrsandite. In the end,the optimum condition of flotation pulp chemistry was obtained with grade of Be O 3. 24% and recovery 75. 29%,when the dosages of four kinds of reagents were 400,1 500,2 000 and 50 g/t,respectively. The results of flotation solution chemistry demonstrated that when the p H value of pulp was 11,the superior components of these four kind of alkaline regulators were F-,CO_3~(2-),HS-and HPO2-4,respectively.
In order to solve the problem of flotation of bertrsandite,four kind of alkaline reagents,including sodium fluoride,sodium carbonate,sodium sulphide and sodium hexametaphosphate,were used as regulators to explore the flotation of bertrsandite. In the end,the optimum condition of flotation pulp chemistry was obtained with grade of Be O 3. 24% and recovery 75. 29%,when the dosages of four kinds of reagents were 400,1 500,2 000 and 50 g/t,respectively. The results of flotation solution chemistry demonstrated that when the p H value of pulp was 11,the superior components of these four kind of alkaline regulators were F-,CO_3~(2-),HS-and HPO2-4,respectively.
引文
[1]李爱民,蒋进光,王晖,等.含铍矿物浮选研究现状与展望[J].稀有金属与硬质合金,2008,36(3):58-61.
[2]张玲,林德松.我国稀有金属资源现状分析[J].地质与勘探,2004,40(1):26-30.
[3]何建璋.新型捕收剂在锂铍浮选中的应用[J].新疆有色金属,2009,32(2):37-38.
[4]VESELY J,NORTON S A,SKRIVAN P,et al.Environmental chemistry of beryllium[J].Reviews in mineralogy and geochemistry,2002,50(1):291-317.
[5]李振军.金属铍冶炼进展[J].中国有色冶金,2006(6):18-23.
[6]成泉辉.非绿柱石铍矿生产工业氧化铍的工艺研究与实践[J].中国有色冶金,2006(6):24-27.
[7]张志敏,晏惕非,尹江生.绿柱石浮选新工艺[J].矿产综合利用,1988(4):31-33.
[8]何炯奎.绿柱石的工业浮选实践及其控制[J].稀有金属,1981(5):28-33.
[9]吴庆胜.锂辉石-绿柱石碱法不脱泥分离工艺流程及其特点的探讨[J].矿产综合利用,1980(1):42-46.
[10]郑元泽,王国全.新疆杨庄羟硅铍石的浮选试验研究[J].新疆有色金属,2012,35(1):66-68.
[11]赵笑益,齐建云.某羟硅铍石矿石选冶试验研究[J].现代矿业,2015(10):85-88.
[12]孙伟,黄红军,胡岳华,等.一种铍铀矿浸出渣浮选回收铍的方法:200910311623X[P].2009-12-16.
[13]刘晓文,毛小西,刘庄,等.羟硅铍石型铍矿的工艺矿物学研究[J].矿物学报,2010(增刊1):61-63.
[14]李毓康.含绿柱石,锂辉石矿石浮选分离工艺及“三碱”调整剂作用机理的研究[J].国外金属矿选矿,1991(增刊1):89-96.
[15]王宇斌,余乐,张威,等.十二胺体系下六偏磷酸钠对白云母可浮性的影响[J].硅酸盐通报,2016,35(5):1407-1412.
[16]王淀佐,胡岳华.浮选溶液化学[M].长沙:湖南科学技术出版社,1988:132-324.
[17]迪安.兰氏化学手册[M].北京:科学出版社,1991:378-406.
[18]胡岳华,陈湘清,王毓华.磷酸盐对一水硬铝石和高岭石浮选的选择性作用[J].中国有色金属学报,2003,13(1):222-228.
[2]张玲,林德松.我国稀有金属资源现状分析[J].地质与勘探,2004,40(1):26-30.
[3]何建璋.新型捕收剂在锂铍浮选中的应用[J].新疆有色金属,2009,32(2):37-38.
[4]VESELY J,NORTON S A,SKRIVAN P,et al.Environmental chemistry of beryllium[J].Reviews in mineralogy and geochemistry,2002,50(1):291-317.
[5]李振军.金属铍冶炼进展[J].中国有色冶金,2006(6):18-23.
[6]成泉辉.非绿柱石铍矿生产工业氧化铍的工艺研究与实践[J].中国有色冶金,2006(6):24-27.
[7]张志敏,晏惕非,尹江生.绿柱石浮选新工艺[J].矿产综合利用,1988(4):31-33.
[8]何炯奎.绿柱石的工业浮选实践及其控制[J].稀有金属,1981(5):28-33.
[9]吴庆胜.锂辉石-绿柱石碱法不脱泥分离工艺流程及其特点的探讨[J].矿产综合利用,1980(1):42-46.
[10]郑元泽,王国全.新疆杨庄羟硅铍石的浮选试验研究[J].新疆有色金属,2012,35(1):66-68.
[11]赵笑益,齐建云.某羟硅铍石矿石选冶试验研究[J].现代矿业,2015(10):85-88.
[12]孙伟,黄红军,胡岳华,等.一种铍铀矿浸出渣浮选回收铍的方法:200910311623X[P].2009-12-16.
[13]刘晓文,毛小西,刘庄,等.羟硅铍石型铍矿的工艺矿物学研究[J].矿物学报,2010(增刊1):61-63.
[14]李毓康.含绿柱石,锂辉石矿石浮选分离工艺及“三碱”调整剂作用机理的研究[J].国外金属矿选矿,1991(增刊1):89-96.
[15]王宇斌,余乐,张威,等.十二胺体系下六偏磷酸钠对白云母可浮性的影响[J].硅酸盐通报,2016,35(5):1407-1412.
[16]王淀佐,胡岳华.浮选溶液化学[M].长沙:湖南科学技术出版社,1988:132-324.
[17]迪安.兰氏化学手册[M].北京:科学出版社,1991:378-406.
[18]胡岳华,陈湘清,王毓华.磷酸盐对一水硬铝石和高岭石浮选的选择性作用[J].中国有色金属学报,2003,13(1):222-228.
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