The Difficult Processing Gold Mine Stone Refines The Technique Research Development
CUI Yong-Xia,1 SHEN Yan2
1.School of Chemical Engineering,GuiZhou University,GuiYang,550003,China;
2.Test center of the school of civil Engineering&Architecture.GuiZhou University,GuiYang,550003,China.
[1] 王忠 王,王世颖,张书圣.黄金提取技术研究进展[J].青岛化工学院学报.21(2):108-111.
[2] 杨振兴.难处理金矿石选冶技术现状及发展方向[J].黄金,2002(7):31-34.
[3] 胡春融、杨凤、杨翅春.黄金选冶技术现状及发展趋势[J].黄金.2006,27(7):29-35.
[4] Mihaylov,Bogidar V et al.Gold recovery from a low—grade ore employing biological pretreatment
in columns[J].Biohydrometal Technical ProcInt Biohyehrometal Syrup.1993,(1):499-511.
[5] Monroy M et al.Heap-bioleaehing of simulated refractory sulfide g0ld ores by thiobaeilhs.Biohydrometall[J].Teehnol Proc Int Bilohydrometall Symp.1993(1):489-498.
[6] Tohnston R.Bionlogical treatment of Bendigo re-fracatory gold ores-possibilities.for the future [J].F:Publ Australas Inst Min Metal,1994,(7):35-37.
[7] Lawrenel,Richard W.Biooxidation for the treatment of refractory goId ores and concentrates—a canaclion perspective[J].CIM Bull,1994,87(985:58-65.
[8] Lindstroem E.Oxidation and reduction of arsenic by sulfolobuS aeidocaldarius strain BC[J].Bio.teehnol,1992,12(2):133-155.
[9] Van Aswegen P C et al.Developments and innovations in bacterial oxidation of refractory Ores[J].Miner Metall Process,1991,8(4):188-191.
[10] Liu X.Petersson S et al.Mesophilie versufl moderate thermophilie bioleaehing[J].Bio-hydrometall Technol Proc Int Biohydrometall
Symp,1993,(1):29-38
[11] Mao Zaisha,Li Ximing et al.Experiments on bacterial removal of arsenic from a refractory arsenical gold concentrate and gold leaching by cyanidation[J].Huagong Yejin,1996,17(3):200-204.
[12] Pronk,Jacobus Thomas et al.Hish yield method of growing Thiobacillus ferrcoxidans on formate[P].S African ZA:9203,117(C1.C12N),30 Dec 1992.
[13] Balakrishnan Mini et al.Bioleaehing of sulfidic g0ld bearing ore for enhanced gold recovery [J].Met Mater Processes,1993,5(1):33-41.
[14] Kinabo,Crispin. Trimercaptos-triazin A nontoxic collector for separation of gold——containing sulfide minerals by flotation[J].Erzmetall,1992,45(9):464-467.
[15] Sagdieva M G et al.Bacterial-chemical recovery of gold from Zarmitan gold ——arsenic concentrate[J].Dold Akad Nauk Resp Uzb.1995,(1):45-47.
[16] Yang Caiyun.Applieation of phonon physics to cryogenic detectors[J].Kuangehan Zonghe Liyong,1994(3):19-21.
[17] Butler.Dean Robert.Low pulp xoneentrations in hydrometalurgical recovery of gold,silver,and platinum-group metals from ores,ore concentrates and tailings[P].PCT Int Appl Wo:9010,721(C1 C2 B3/06)20 Sep.1990.
[18] 白铁,江晓庆,黄淦祥.黄金生产工艺指南[M].北京:地质出版社,2000.
[19] 张一兵,王师金.周金娣.黄金冶炼方法综述.上饶师范学院学报.2005,25(3):48-51.
[20] 罗家珂.黄金提取与环境保护[J].矿冶,2000,9(1):92-98.
[21] 番寿龙,建方方,汪信.新型黄金浮选剂的合成及浮选性能研究[J].贵金属,2001,22(3):18-22.
[22] 海光宝.国内外黄金选冶技术现状与展望[J].云南冶金,2000,29(4):2-7,45.
[23] 刘宝剑,毛学锋.黄金提取技术综述[J].西北师范大学学报(自然科学版),1998,34(1):103-108.
[24] 王忠卫,王世颖,张书圣.黄金提取技术研究进展[J].青岛化工学报,2000,21(2):108-111.
[25] Solozhenkin P M et al.Flotation of precious metal-containing ores with earboxylie acidsmodified by sulfhydryl reagents[J].TsvethMet.1990,(10):100-102.
[26] Andreev P I er al.Algae as adsorbents for no.ble metals[J].Razved Okjh~Nedy,1992,(2):27-28.
[27] Baglin E GS.Methods of recovering platinum-group metals from ststillwater Comples ore[J].Sulphide Deposits,1990:155-163.
[28] Kimble Kenneth B et al.Mercaptan collector for froth flotation of ores[P].U S us 4,857,179(C1.209-166;B03D1/02)15 AUG 1989.
[29] Li QingXin.Processing a gold—bearing sulfide ore[J].Youkuangye,1989,8(4):39-44.
[30] Grujie M et al.The possibility of improvementof process results in polymetallie ore flotation [J].Zesz NauK Akad Gom-Hutn im Stanis1.awa Stasziea Gom ,1989,146 :96-100.
[31] Connor C T et al.the fohafion of gold bearingores—a review[J].Miner Eng,1994,7(7):839-849.
[32] 王方俊.黄金工业的生物冶金术[M].中国创业投资与高科技.2005,10:23-25.
[33] 罗家珂,刘伯琴.我国黄金生产技术及其进展(A).首届全国贵金属学术研讨会论文集(C),1997,(昆明),26.
[34] 张箭,兰新哲.黄金冶金的进步与展望(A).首届全国贵金属学术研讨会论文集(C).1997,(昆明),42.
[35] 王康林,汪模辉,蒋金龙.难处理金矿石的细菌氧化预处理研究现状[J].黄金科学技术,2001,9(1):19-24
