Application of response surface methodology in optimizaing thesulfation-roasting-leaching process of nickel laterite 被引量：4

Application of response surface methodology in optimizaing thesulfation-roasting-leaching process of nickel laterite

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摘要 Nickel was recovered from nickel laterite using a sulfation-roasting-leaching process and the effects of operation parameters in- cluding acid addition, roasting temperature, and roasting time on nickel extraction and iron dissolution were investigated using response sur- face methodology （RSM）. Two second-order polynomial models of high significance were presented to show the relationship between the responses and the variables. The analysis of variance （ANOVA） showed high coefficients of determination （R2） of 0.894 and 0.980 for the two models, respectively. Optimum areas of 〉-80% Ni extraction and 〈5% Fe dissolution were obtained by the overlaid contours. Verification experiments in the optimum areas were conducted and the results indicate a close agreement with the predicted values obtained from the models. Nickel was recovered from nickel laterite using a sulfation-roasting-leaching process and the effects of operation parameters in- cluding acid addition, roasting temperature, and roasting time on nickel extraction and iron dissolution were investigated using response sur- face methodology （RSM）. Two second-order polynomial models of high significance were presented to show the relationship between the responses and the variables. The analysis of variance （ANOVA） showed high coefficients of determination （R2） of 0.894 and 0.980 for the two models, respectively. Optimum areas of 〉-80% Ni extraction and 〈5% Fe dissolution were obtained by the overlaid contours. Verification experiments in the optimum areas were conducted and the results indicate a close agreement with the predicted values obtained from the models.

作者 Xue-yi Guo Dong Li Zhan Wu Qing-hua Tian

机构地区 School of Metallurgical Science and Engineering

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2012年第3期199-204,共6页 矿物冶金与材料学报（英文版）

关键词 nickel laterite SULFATION ROASTING LEACHING OPTIMIZATION response surface methodology nickel laterite sulfation roasting leaching optimization response surface methodology

分类号 O212.6 [理学—概率论与数理统计] TF811 [冶金工程—有色金属冶金]

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参考文献15

1Hoogenboom H R,de Bruine A P,Hufton S E et al.Antibody phage display technology and its application [J].Immunotechnology,1998;4:1-20.
2Hoogenboom H R,Charms P.Natural and designer binding sites made by phage display technology [J].Immunol Today,2000;8:371-378.
3Zhao H M,Giver L,Shao Z X et al.Molecular evolution by staggered extention process(StEP) in vitro recombination [J].Nat Biotechnol,1998;16:258-261.
4K.Ishii,Development of ferro-nickel smelting from laterite in Japan,Int.,J.Miner.Process.,19(1987),No.1-4,p.15.
5S.L.Chen,X.Y.Guo,W.T.Shi,and D.Li,Extraction of valuable metals from low-grade nickeliferous laterite ore by reduction roasting-ammonia leaching method,J.Cent.South Univ.Technol.,17(2010),No.4,p.765.
6Chowdhury P S.Targeting random mutations to hotspots in antibody variable domains for affinity improvement [J].Methods in Molecular Biology,2002;178:269-285.
7J.C.Arroyo and D.A.Neudorf,Atmospheric Leach Process for the Recovery of Nickel and Cobalt from Limonite and Saprolite Ores,US Patent,Appl.6261527,2001.
8R.G.McDonald and B.I.Whittington,Atmospheric acid leaching of nickel laterites review:Part Ⅰ.Sulfuric acid technologies,Hydrometallurgy,91(2008),No.1-4,p.35.
9J.A.Johnson,B.C.Cashmore,and R.J.Hockridge,Optimization of nickel extraction from laterite ores by high pressure acid leaching with addition of sodium sulphate,Miner.Eng.,18(2005),No.13-14,p.1297.
10K.Liu,Q.Y.Chen,H.P.Hu,Z.L.Yin,and B.K.Wu,Pressure acid leaching of a Chinese laterite ore containing mainly maghemite and magnetite,Hydrometallurgy,104(2010),No.l,p.32.

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1汪保安,陈晓穗,乔媛媛,曲佳,王欲晓,王琰.联合应用错配PCR和交替延伸PCR法提高抗TNFα抗体亲和力[J].中国免疫学杂志,2004,20(12):846-849.

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1朱景和.世界镍红土矿开发与利用的技术分析[J].中国金属通报,2007(35):22-25. 被引量：16
2彭及,彭兵,余笛,唐谟堂,宋海,J.Lobel3,J.A.Kozinski.Kinetics of isothermal reduction of stainless steelmaking dust pellets[J].中国有色金属学会会刊：英文版,2004,14(3):593-598. 被引量：2
3何灿,肖述刚,谭木昌.印度尼西亚红土型镍矿[J].云南地质,2008,27(1):20-26. 被引量：33
4曹战民,宋晓艳,乔芝郁.热力学模拟计算软件FactSage及其应用[J].稀有金属,2008,32(2):216-219. 被引量：83
5王成彦,尹飞,陈永强,王忠,王军.国内外红土镍矿处理技术及进展[J].中国有色金属学报,2008,18(E01):1-8. 被引量：92
6张华,王传琳,张建良,黄冬华.红土镍矿还原焙烧-磁选试验研究[J].铁合金,2010,41(1):22-25. 被引量：12
7陈胜利,郭学益,石文堂,李栋.Extraction of valuable metals from low-grade nickeliferous laterite ore by reduction roasting-ammonia leaching method[J].Journal of Central South University,2010,17(4):765-769. 被引量：10
8李光辉,饶明军,姜涛,黄晴晴,史唐明,张元波.红土镍矿还原焙烧-磁选制取镍铁合金原料的新工艺[J].中国有色金属学报,2011,21(12):3137-3142. 被引量：40
9李光辉,饶明军,姜涛,史唐明,黄晴晴.红土镍矿钠盐还原焙烧-磁选的机理[J].中国有色金属学报,2012,22(1):274-280. 被引量：27
10Xin-wei L iu,Ya-li Feng,Hao-ran L i,Zhi-chao Yang,Zhen-lei Cai.Recovery of valuable metals from a low-grade nickel ore using an ammonium sulfate roasting-leaching process[J].International Journal of Minerals,Metallurgy and Materials,2012,19(5):377-383. 被引量：14

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1朱林,韩俊伟,刘维,张添富,李琛.铁矾渣综合利用技术进展[J].矿产保护与利用,2018,38(4):124-129. 被引量：6
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5Ji-wei Bao,Zheng-gen Liu,Man-sheng Chu,Dong Han,Lai-geng Cao,Jun Guo,Zi-chuan Zhao.Multi-objective collaborative optimization of metallurgical properties of iron carbon agglomerates using response surface methodology[J].International Journal of Minerals,Metallurgy and Materials,2021,28(12):1917-1928. 被引量：3
6牟文宁,肖腾飞,石双志,徐雪晴,程皓,翟玉春.低品位镍铜硫化矿氯化焙烧同步提取有价金属及过程的动力学[J].Transactions of Nonferrous Metals Society of China,2022,32(6):2033-2045. 被引量：3
7吴孝彬,朱曾丽,孔辉,樊友奇,程思维,华中胜.NaCl-KCl共熔盐中Zn^(2+)的电化学还原机理[J].Transactions of Nonferrous Metals Society of China,2022,32(9):3088-3098. 被引量：1
8牟文宁,顾梦飞,杜守明,陈宇翔,雷雪飞,陈欢欢,罗绍华,王乐.利用NH_(4)Cl焙烧-水浸工艺从低冰镍中提取金属并合成(Ni,Cu,Co)Fe_(2)O_(4)光催化剂[J].Journal of Central South University,2023,30(6):1803-1816.

1李栋,朴庚镐,吴展,郭学益.Response surface design for nickel recovery from laterite by sulfation-roasting-leaching process[J].Transactions of Nonferrous Metals Society of China,2010,20(S1):92-96. 被引量：3
2胡广浩,毛志忠,何大阔.Multi-objective optimization for leaching process using improved two-stage guide PSO algorithm[J].Journal of Central South University,2011,18(4):1200-1210. 被引量：8
3M.D.Turan,H.S.Altundogan.Leaching of copper from chalcopyrite concentrate by using ammonium persulphate in an autoclave:Determination of most suitable impeller type by using response surface methodology[J].Journal of Central South University,2013,20(3):622-628. 被引量：1
4麦结华.解析函数的离散化及其应用[J].数学的实践与认识,1993,23(4):13-17.
5杨彦松.响应面法优化硝酸浸铅锌矿尾渣回收银工艺研究[J].应用化工,2011,40(8):1401-1404. 被引量：2
6杨阿莉,徐哲,李晓华.Helmholtz方程混合边值问题的数值计算[J].纺织高校基础科学学报,2010,23(1):10-12.
7包志强.可定向曲面间覆叠映射的构造[J].中国科学（A辑）,2000,30(5):426-431.
8卢友志,马少妹,韦冬萍,袁爱群,黄宝英.甲酸—硝酸还原浸出低品位软锰矿[J].有色金属（冶炼部分）,2014(11):4-8. 被引量：8
9倪早菊.古怪沙漠引来无穷猜想[J].奇闻怪事,2009(12):42-43.
10张佴栋,常军,周俊文,张利波,彭金辉,任晓鹏.响应曲面法优化超声强化浸出烧结灰中银的工艺[J].过程工程学报,2016,16(5):757-766. 被引量：5

International Journal of Minerals,Metallurgy and Materials

2012年第3期

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