黄金科学技术
img

QQ群聊

img

官方微信

高级检索
作者投稿 专家审稿 编辑办公

黄金科学技术 ›› 2017, Vol. 25 ›› Issue (5): 80-84.doi: 10.11872/j.issn.1005-2518.2017.05.080

• 采选技术与矿山管理 • 上一篇    下一篇

青海高原地区某金矿闪速浮选可行性研究

李飞1,2,陈自强1,2   

  1. 1.青海省第六地质矿产勘查院,青海  西宁   816000;
    2.青海省金矿资源开发工程技术研究中心,青海  都兰   816100
  • 收稿日期:2017-06-28 修回日期:2017-08-11 出版日期:2017-10-30 发布日期:2018-02-12
  • 作者简介:李飞(1987-),男,湖北荆门人,工程师,从事金矿选矿技术工作。376169069@qq.com
  • 基金资助:

    青海省科技支撑计划项目“青海高原(五龙沟地区)难处理金矿采选冶工艺集成与示范”(编号:2015-SF-122)和青海省工程技术研究中心项目“青海省金矿资源开发工程技术研究中心”(2016-GX-G02)联合资助

Feasibility Study of Flash Flotation of a Gold Mine in Plateau Area of Qinghai Province

LI Fei 1,2,CHEN Ziqiang 1,2   

  1. 1.Qinghai 6th Institute of Geology and Mineral Exploration,Xining    816000,Qinghai,China;
    2.The Engineering and Technology Research Center for the Development of Gold Mining Resources in Qinghai Province,Dulan    816100,Qinghai,China
  • Received:2017-06-28 Revised:2017-08-11 Online:2017-10-30 Published:2018-02-12

PDF (PC)

719

摘要:

青海高原地区某金矿的原矿属于微细粒蚀变岩型金矿,浮选回收率低,调整浮选工艺参数后浮选效果也未得到明显提升。通过考察磨矿分级工艺并分析旋流器底流粒级筛析发现,旋流器的分级效率为43%~60%,且底流存在金的“反富集”现象,部分粒级金品位达到20×10-6以上,这部分已单体解离的有用矿物循环累积于闭路作业中易产生过磨和矿泥二次包裹,从而限制了有用矿物的可浮性,使得回收率难以有效提升。通过在实验室模拟选厂工艺流程,在一段旋流器底流增加闪速浮选作业进行连续闭路试验,闪速浮选精矿产率达到4.07%,精矿品位达到38.31×10-6。旋流器底流中已单体解离的有用矿物通过闪速浮选能达到“早收快收”的效果,减少了这些有用矿物过磨及矿泥二次包裹的几率。旋流器溢流再磨至选矿厂要求的浮选细度进行常规浮选闭路试验,综合回收率由常规浮选工艺下的80.90%提高至83.96%。

关键词: 磨矿分级, 过磨, 单体解离, 闪速浮选, 高原地区, 青海省

Abstract:

 The raw ore of a gold mine in plateau area of Qinghai Province belongs to fine grained altered rock type,the recovery rate of flotation is low.By adjusting the flotation process parameters,the flotation effect has not been significantly improved.Through investigation of grading classification process and analysis of hydrocyclone’s underflow size sieve,it is found that the classification efficiency of hydrocyclone is 43%~ 60%,and the phenomenon of “anti-enrichment” exist in the underflow,in which the gold content of some particles reached above 20×10-6.Those useful minerals of monomeric dissociation were circulated in closed circuit process and easily causing overgrinding and slime encapsulation,which limited the flotability of useful minerals,so the recovery rate is difficult to effectively enhance.The simulation of manufacturing process was conducted in laboratory,by increasing flash flotation operation at the underflow of a hydrocyclone,the yield of concentrate in flash flotation reached 4.07%,and the grade of gold in concentrate reached 38.31×10-6.The useful mineral of monomeric dissociation in the underflow of a hydrocyclone has been collected by the flash flotation to achieve the effect of “early and quick collection”,reducing the probability of overgrinding and slime encapsulation of these useful minerals.The overflow continued to be ground to the required fineness to carry out closed-circuit test of routine flotation,and the comprehensive recovery of gold was increased from 80.90% under the conventional flotation process to 83.96%.

Key words:  grinding and classification, overgrinding, monomeric dissociation, flash flotation, plateau area, Qinghai Province

中图分类号: 

  • TD953

[1] Tang Wengang.Basic Theory of Hydrocyclone and Its Applied Research[D].Chongqing:Chongqing University,2006.[唐文钢.水力旋流器的基础理论及其应用研究[D].重庆:重庆大学,2006.]
[2] Wang Panzhi.Selection method of flash flotation machine in gold mine[J].Industrial B,2015,57 (5): 259.[王攀志.黄金矿山闪速浮选机的选择方法[J].工业B,2015,57(5):259.]
[3] Peng Yuanlun.Study on the test of coarse particle flash flotation[C]//Proceedings of the Conference on the Exploitation and Utilization of Mineral Resources in Western China.Beijing:Mining and Metallurgy,2002:154-156.[彭远伦.粗粒闪速浮选试验研究[C]//西部矿产资源开发利用与保护学术会议论文集.北京:矿冶,2002:154-156.]
[4] He Congxing.Coarse particle flash flotation:The effective way to improve floatation index[J].Nonferrous Metallurgy,1988(3):17-19.[何从行.粗粒闪速浮选——提高浮选指标的有效途径[J].有色矿冶,1988(3):17-19.]
[5] Zhang Xinkuan,Li Hong.The industrial experiments of flash flotation in Jilongshan gold mine and the feasibility analysis of application[J].China Mine Engineering,1998(4):37-41.[张新宽,李宏.闪速浮选在鸡笼山金矿的工业试验及应用可行性分析[J].中国矿山工程,1998(4):37-41.]
[6] Yao Mingzhao,Li Qiang,Zhang Yuejun,et al.Development and application of high concentration flotation technology[J].Modern Mining,2016(4):75-77.[姚明钊,李强,张跃军,等.高浓度浮选技术的发展与应用[J].现代矿业,2016(4):75-77.]
[7] Wang Hairui.Flash flotation process and its application[C]// National Powdery Engineering Academic Conference.Beijing:The Chinese Society for Metals,1998.[王海瑞.闪速浮选工艺及其应用[C]//全国粉体工程学术会议.北京:中国金属学会,1998.]
[8] Zheng Xuehua.Kinetics Research of Flash Flotation Separation on Copyrite and Pyrite[D].Ganzhou:Jiangxi University of Technology,2015.[郑雪华.黄铜矿、黄铁矿快速浮选分离动力学研究[D].赣州:江西理工大学,2015.]
[9] Ming Pingtian,Wu Guomin,Li Fei,et al.Research on process investigation and analysis of grinding classification[J].Non-ferrous Metals(Mineral Processing Section),2012(6):45- 48.[明平田,吴国民,李飞,等.磨矿分级工艺考察及分析研究[J].有色金属(选矿部分),2012(6):45-48.]
[10] Liu Yongqiang.Research on the Flotation Method of Swirling Flow[D].Beijing:Beijing Institute of Metallurgical Research,1996.[刘永强.旋流闪速浮选法的研究[D].北京:北京矿冶研究总院,1996.]
[11] Li Changgen,Liu Yongqiang.Study on cyclone flash flotationⅠ.Feasibility study on cyclone flash flotation[J].Nonferrous Metal Engineering,2000,52(1):25-32.[李长根,刘永强.旋流闪速浮选法的研究──Ⅰ.旋流闪速浮选法的可行性研究[J].有色金属工程,2000,52(1):25-32.]
[12] Wang Zheng,Wei Li.Using SPSS software achieve pharmacy experiment orthogonal design’s variance analysis[J].Journal of Mathematical Medicine,2014(1):99-102.[王政,魏莉.利用 SPSS 软件实现药学实验中正交设计的方差分析[J].数理医药学杂志,2014(1):99-102.]
[13] Zhu Hongbing,Xi Kaiqiang.The orthogonal experimental design in SPSS 17.0 and data analysis[J].Journal of Capital University of Physical Education and Sports,2013,25(3):283-288.[朱红兵,席凯强.SPSS 17.0中的正交试验设计与数据分析[J].首都体育学院学报,2013,25(3):283-288.]
[14] Liao Qinhuan.Application of flash flotation in a certain gold mine concentrator in Gansu Province[J].Gold Science and Technology,2016,24(2):108-111.[廖钦桓.闪速浮选工艺在甘肃某金矿选矿厂的应用[J].黄金科学技术,2016,24(2):108-111.]
[15] Tan Ming,Feng Tianran,Han Zhibin,et al.Industrial test study on performance of YXⅡ-4 flash flotation cell in the milling-classification circuit[J].Nonferrous Metals(Mineral Processing Section),2017(1):74-77.[谭明,冯天然,韩志彬,等.YXⅡ-4闪速浮选机在磨矿分级回路的工业试验研究[J].有色金属(选矿部分),2017(1):74-77.]
[16] Huang Kaiguo.The progress and application of branch flotation[J].Nonferrous Metals(Mineral Processing Section),1991(2):22-28. [黄开国.分支浮选的进展及应用[J].有色金属(选矿部分),1991(2):22-28.]
[17] Wang Yanhui,Shi Fengye,Zhao Jianwei,et al.Application of stage grinding and stage flotation process in Yunnan Zhenyuan gold mine[J].Gold,2013,34(9):62-64.[王彦慧,石凤野,赵健伟,等.阶段磨矿阶段浮选工艺在云南镇沅金矿的应用[J].黄金,2013,34(9):62-64.]
[1] 邢佳,王建国,王志男,胡建,魏生云. 青海赛坝沟金矿辉长岩地球化学组成及成因分析[J]. 黄金科学技术, 2022, 30(5): 664-675.
[2] 刘永乐,张爱奎,刘智刚,孙非非,何书跃,张大明,奎明娟,张建平. 青海东昆仑西段金矿成因类型及成矿模式[J]. 黄金科学技术, 2022, 30(4): 483-497.
[3] 郑高华,王雨琦,王毓华,卢东方,郑霞裕. 基于虚拟现实技术的磨矿分级工艺自主设计系统的开发[J]. 黄金科学技术, 2021, 29(1): 120-128.
[4] 刘铭,王仔章. 青海省都兰县丘吉东沟金矿水系沉积物地球化学特征及找矿远景[J]. 黄金科学技术, 2020, 28(6): 837-845.
[5] 傅开彬,王维清,赵涛涛,龙美樵,侯普尧,杜明霞. 缅甸实皆省某金矿工艺矿物学研究[J]. 黄金科学技术, 2020, 28(2): 278-284.
[6] 李飞,陈自强. 青海某金矿选冶中试厂工艺设计优化及应用[J]. 黄金科学技术, 2020, 28(1): 142-147.
[7] 杨宝凯,徐美君,曹瑞,于洋,解永健,何安全. 青海滩北雪峰地区土壤地球化学异常特征及找矿前景[J]. 黄金科学技术, 2019, 27(6): 816-825.
[8] 周贺鹏, 胡洁, 段朝阳, 邓攀, 钟志刚, 张永兵. 甘肃洛坝铅锌矿选矿流程考察与优化[J]. 黄金科学技术, 2019, 27(5): 696-703.
[9] 明平田,蒋光山. 青海省独立型岩金矿选冶技术现状和研究进展[J]. 黄金科学技术, 2018, 26(5): 622-628.
[10] 潘彤,王德福. 初论青海省金矿成矿系列[J]. 黄金科学技术, 2018, 26(4): 423-430.
[11] 唐卫东, 马庆, 王郅睿. 青海献礼山地区1/5万水系沉积物地球化学特征及其地质意义[J]. 黄金科学技术, 2018, 26(3): 289-296.
[12] 胡笑坤,宋慧昌,刘青. 金矿选矿厂磨矿分级过程仿真系统研发[J]. 黄金科学技术, 2016, 24(5): 94-101.
[13] 杨宝荣,马忠贤,熊生云 . 青海都兰哈西哇金多金属矿床有用矿物赋存状态研究[J]. 黄金科学技术, 2016, 24(3): 52-57.
[14] 廖钦桓. 闪速浮选工艺在甘肃某金矿选矿厂的应用[J]. 黄金科学技术, 2016, 24(2): 108-111.
[15] 路耀祖,杨晓刚. 青海南巴颜喀拉造山带扎开陇巴地区地质特征及金矿找矿前景[J]. 黄金科学技术, 2016, 24(1): 28-34.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!

©2018 黄金科学技术编辑部

电话:0931-8277791 

E-mail: hjkx@lzb.ac.cn 邮编:730000 

陇ICP备17001318号-1    甘公网安备 62010202000672号
访问总数:    当日访问:    当前在线: