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黄金科学技术 ›› 2017, Vol. 25 ›› Issue (1): 112-120.doi: 10.11872/j.issn.1005-2518.2017.01.112

• 采选技术与矿山管理 • 上一篇    下一篇

微波辐照技术在矿业中的应用现状及发展趋势

喻清1,2,丁德馨1,2,张炬 1,胡南 2,杨雨山 1,2,王浩2   

  1. 1.中南大学资源与安全工程学院,湖南  长沙   410083;
    2.南华大学铀矿冶生物技术国防重点学科实验室,湖南  衡阳   421001
  • 收稿日期:2016-03-31 修回日期:2016-04-25 出版日期:2017-02-28 发布日期:2017-05-12
  • 通讯作者: 丁德馨(1958-),男,湖南常德人,教授,博士生导师,从事微波辅助破磨研究工作。dingdxzzz@163.com
  • 作者简介:喻清(1984-),男,江西临川人,博士研究生,从事微波辅助破磨研究工作。ckyuqingk@126.com
  • 基金资助:

    国家自然科学基金重点项目“粤北铀尾矿库及周边地区放射性污染产生机制及控制原理”(编号:U1401231)、国家安全生产监督管理总局资助项目“金属矿深部开采矿柱动态卸荷破坏机制研究”(编号:hunan-0011-2016AQ)和南华大学创新团队项目“铀矿山岩土工程灾害预测与控制”(编号:NHCXTD04)联合资助

Application Status and Development Trend of Microwave Radiation Technology in Mining

YU Qing 1,2,DING Dexin 1,2,ZHANG Ju 1,HU Nan 2,YANG Yushan 1,2,WANG Hao 2   

  1. 1.School of Resources and Safety Engineering,Central South University,Changsha    410083,Hunan,China;
    2.Key Discipline Laboratory for National Defence for Biotechnology in Uranium Mining and Hydrometallurgy,University of South China,Hengyang    421001,Hunan,China
  • Received:2016-03-31 Revised:2016-04-25 Online:2017-02-28 Published:2017-05-12

PDF (PC)

426

摘要:

在概述微波辐照技术用于矿业工程现状的基础上,阐述微波辐照的介电损耗机理和特性,着重评述微波辐照技术在辅助破碎、浸出、焙烧、干燥、加热还原和除杂等矿业领域中的最新进展。将微波辐照技术应用于传统矿业工艺过程中,具有良好的经济价值和潜在的工业化前景。分析了当前微波辐照技术应用于矿业亟需解决的问题,并展望了今后的研究方向,特别是微波与物料间相互作用理论、微波辐照工艺与设备、微波辐照技术在水处理和土壤修复的应用等方面。

关键词: 微波, 辅助碎磨, 浸出, 焙烧, 干燥, 加热还原, 除杂

Abstract:

The mechanism of dielectric losses and characteristics of microwave radiation were reviewed on the basis of current situation and recent progress of microwave radiation applied to mining process.The application of microwave radiation technology in crushing,leaching,roasting,drying,heating reduction,removing impurities in the field of mining were summarized specially.Examples of successful applications were given to illustrate the advantages of microwave radiation technology in traditional mining process.It was concluded that microwave radiation technology had cheerful prospects for industrialization and created a good economic value as an effective clean energy.Problems in the current studies of microwave radiation technology in the mining were analyzed,some suggestions for the future research directions,especially for the interaction mechanism between microwave and materials,radiation technology and equipment,the application of microwave radiation technology in  water treatment and soil remediation were given.

Key words: microwave, assisted crushing, leaching, roasting, drying, heating reduction, removing impurities

中图分类号: 

  • TD925 

[1] Liu Quanjun,Jiang Meiguang.Technological development of ore crushing and grinding and their current situation[J].Yunnan Metallurgy,2012,41(5):21-28.[刘全军,姜美光.碎矿与磨矿技术发展及现状[J].云南冶金,2012,41(5):21-28.]
[2] Barani K,Javad Koleini S M,Rezaei B.Magnetic properties of an iron ore sample after microwave heating[J].Separation and Purification Technology,2011,76(3):331-336.
[3] Chen Jun,Zhang Bangwen,Li Jie,et al.Iron recovery and niobium enrichment from rough niobium concentrate by microwave reduction-magnetic separation process[J].Mining and Metallurgical Engineering,2012,32(2):92-95.[陈均,张邦文,李解,等.微波碳热还原—磁选工艺自粗铌精矿中回收铁并富集铌[J].矿冶工程,2012,32(2):92-95.]
[4] Wang Deying,Sun Guangzhou,Luo Xing,et al.Application prospect of microwave roasting in refractory iron ores[J].Multipurpose Utilization of Mineral Resources,2013,2(1):1-3.[王德英,孙广周,罗兴,等.微波焙烧在难选铁矿中的应用前景[J].矿产综合利用,2013,2(1):1-3.]
[5] Cai Weiquan,Li Huiquan,Zhang Yi.Recent development of microwave radiation application in metallurgical processes[J]. The Chinese Journal of Process Engineering,2005,5(2):228-232.[蔡卫权,李会泉,张懿.微波技术在冶金中的应用[J].过程工程学报,2005,5(2):228-232.]
[6] Katsumi T,Fumiyasu K,Masashi K.Development of the microwave heated catalyst system[J].JSAE Review,1999,20(3):431-434.
[7] David E C,Diane C F,Jon K W.Processing materials with microwave energy[J].Materials Science and Engineering A-Structural Materials Properties Microstructure and Proces sing,2000,287(2):153-158.
[8] Li Wencheng,Du Xuepeng.Application of microwave-assisted rock breaking in metal mines[J].Copper Engineering,2010(4):1-4.[李文成,杜雪鹏.微波辅助破岩新技术在非煤矿的应用[J].铜业工程,2010(4):1-4.]
[9] Saye S A.Application of microwave in mining engineering[J].Metallic Ore Dressing Abroad,2002(9):14-18.[S A塞伊.微波在矿业工程中的应用[J].国外金属矿选矿,2002(9):14-18.]
[10] Kingman S W,Rowson N A.Microwave treatment of minerals——A review[J].Minerals Engineering,1998,11(11):1081-1087.
[11] Kingman S W,Jackson K,Bradshaw S M,et al.An investigation into the influence of microwave treatment on mineralore comminution[J].Powder Technology,2004,146(3):176-184.
[12] John W.Microwave-assisted grind[J].IEEE Transactions on Industry Applications,1991(2):239-243.
[13] Walkiewicz J W.Microwave heating characteristics of selec-ted ore minerals and compounds[J].Minerals & Metallurgical Processing,1987,5(1):39-42.
[14] Guo S H,Chen G,Peng J H.Microwave assisted grinding of ilmenite ore[J].Transactions of Nonferrous Metals Society of China,2011,21(9):2122-2126.
[15] Fu Runze,Zhu Hongbo,Peng Jinhui,et al.Microwave assited grinding of Huimin iron ore[J].Multipurpose Utilization of Mineral Resources,2012,4(2):24-27.[付润泽,朱洪波,彭金辉,等.采用微波助磨技术处理惠民铁矿的研究[J].矿产综合利用,2012,4(2):24-27.]
[16] Li Jun,Peng Jinhui,Guo Shenghui,et al.The testing investigation on microwave assisted grinding of ilmenite[J].Light Metals,2009(11):50-53.[李军,彭金辉,郭胜惠,等.钛铁矿的微波辅助磨细试验研究[J].轻金属,2009 (11):50-53.]
[17] Yianatos J B,Antonucci V.Molybdenite concentrate cleaning by copper sulfation activated by microwave[J].Minerals Engineering, 2001,14(11):1411-1419.
[18] Standish N,Worner H.Microwave handling of iron ore powder[J].Microwave Power and Electromagnetic Energy,1990,25(3):177-180.
[19] Ma Hongzhou,Yan Chao,Wang Yaoning,et al.Leaching of arsenic from arsenic-bearing gold ore with microwave radiation[J]. Nonferrous Metals(Extractive Metallurgy),2014(12):31-33.[马红周,燕超,王耀宁,等.微波辅助浸出含砷金矿中砷的研究[J].有色金属(冶炼部分),2014(12):31-33.]
[20] Chen T T.The relative transparency of minerals to microwave radiation[J].Canadian Metallurgical Quarterly,1984,23(1):349-351.
[21] Peng Jinhui,Liu Chunpeng.Characteristics of temperature increase of minerals and compounds in microwave field[J].The Chinese Journal of Nonferrous Metals,1997,7(3):50-51,84.[彭金辉,刘纯鹏.微波场中矿物及其化合物的升温特性[J].中国有色金属学报,1997,7(3):50-51,84.]
[22] Huang J H,Rowson N A.Hydrometallurgical decomposition of pyrite and marcasite in a microwave field[J].Hydrometallurgy,2002,64(3):169-179.
[23] Olubambi P A.Influence of microwave pretreatment on the bioleaching behaviour of low-grade complex sulphide ores[J].Hydrometallurgy,2009,95(1/2):159-165.
[24] Schmuhl R,Smit J T,Marsh J H.The influence of microwave pre-treatment of the leach behaviour of disseminated sulphide ore[J].Hydrometallurgy,2011,108(3/4):157-164.
[25] Nanthakumar B,Pickles C A,Kelebek S.Microwave pretreatment of a double refractory gold ore[J].Minerals Engineering,2007,10(20):1109-1119.
[26] Ma Yanfeng,Chen Xiangyang,Chen Yongming.Study on the leaching of vanadium from stone coal ore by microwave pretreatment[J].Journal of Xi’an University of Architecture & Technology,2013,45(3):452-456.[马彦锋,陈向阳,陈永明.微波辅助浸钒工艺实验研究[J].西安建筑科技大学学报(自然科学版),2013,45(3):452-456.]
[27] Shi Yuqiao,Liang Jie,Zhang Shuang,et al.Microwave treatment on low grade lead-zinc oxide ore[J].Nonferrous Metals(Extractive Metallurgy),2013(6):15-17.[石玉桥,梁杰,张爽,等.微波处理低品位氧化铅锌矿[J].有色金属(冶炼部分),2013(6):15-17.]
[28] Chen Wei,Ding Dexin,Hu Nan,et al.Pretreatment of refractory gold-bearing sulfur concentrates by microwave roasting[J].The Chinese Journal of Nonferrous Metals,2015,25(7):2000-2005.[陈伟,丁德馨,胡南,等.微波焙烧预处理难浸含金硫精矿[J].中国有色金属学报,2015,25(7):2000-2005.]
[29] Li Jie,Li Chengyuan,Li Baowei,et al.Acid leaching of lowgrade rare earth concentrate by microwave heating[J].Chinese Journal of Rare Metals,2014,38(5):839-845.[李解,李成元,李保卫,等.微波加热低品位稀土精矿酸浸实验研究[J].稀有金属,2014,38(5):839-845.]
[30] Kingman S W.Recent developments in microwave  processing of minerals[J].International Materials Reviews,2006,51(1):1-12.
[31] Ma S J,Luo W J,Mo W,et al.Removal of arsenic and sulfur from a refractory gold concentrate by microwave heating[J].Minerals Engineering,2010,23(1):61-63.
[32] Zhang Xiaoyun,Qin Wenqing,Tian Xueda,et al.Microwave roasting-acidic leaching technique for extraction of vanadium from stone coal[J].The Chinese Journal of Nonferrous Metals,2011,21(4):908-912.[张小云,覃文庆,田学达,等.石煤微波空白焙烧—酸浸提钒工艺[J].中国有色金属学报,2011,21(4):908-912.]
[33] Li Jie,Han Tengfei,Li Baowei,et al.Study on technology of microwave reduction roasting-low intensity magnetic separation of hematite[J].Mining and Metallurgical Engineering,2014,34(1):82-86.[李解,韩腾飞,李保卫,等.赤铁矿微波还原焙烧—弱磁选工艺研究[J].矿冶工程,2014,34(1):82-86.]
[34] Zheng Qin,Zhang Libo,Peng Jinhui,et al.Study on dechlorination of zinc dross by microwave roasting[J].Mining and Metallurgy,2013,22(4):67-76.[郑勤,张利波,彭金辉,等.微波焙烧锌浮渣脱氯的研究[J].矿冶,2013,22(4):67-76.]
[35] Zhang Nianbing,Bai Chenguang,Deng Qingyu.Microwave roasting pretreatment of high-sulfur bauxite[J].Journal of Chongqing University(Natural Science Edition),2012,35(1):81-85.[张念炳,白晨光,邓青宇.高硫铝土矿微波焙烧预处理[J].重庆大学学报(自然科学版),2012,35(1):81-85.]
[36] Amankwah R K,Pickles C A.Microwave roasting of a carbonaceous sulphidic gold concentrate[J].Minerals Engineering,2009,22(13):1095-1101.
[37] Barani K,Javad Koleinia S M,Rezaeib B.Magnetic properties of an iron ore sample after microwave heating[J].Separation and Purification Technology,2011,76(3):331-336.
[38] Huang Fang,Liu Xue,Zhao Pingyuan,et al.Research on dissolution performance of roasted bauxite under microwave field[J].Mining and Metallurgical Engineering,2013,33(4):81-83.[黄芳,刘学,赵平源,等.微波场焙烧铝土矿的溶出性能研究[J].矿冶工程,2013,33(4):81-83.]
[39] Yang Kun,Zhu Hongbo,Peng Jinhui,et al.Pilot study on microwave roasting of high titanium slag[J].Mining and Metallurgical Engineering,2014,34(2):77-79.[杨坤,朱红波,彭金辉,等.微波焙烧高钛渣中试研究[J].矿冶工程,2014,34(2):77-79.]
[40] Li Jie,Wang Shaobing,Li Baowei,et al.Microwave-assisted decomposition of rare earth concentrate with sulfuric acid at low temperature[J].Chinese Rare Earths,2013,34(6):45-50.[李解,王少炳,李保卫,等.微波辅助硫酸低温焙烧稀土精矿试验研究[J].稀土,2013,34(6):45-50.]
[41] Liu Tao,Hu Pengcheng,Zhang Yimin,et al.Effect of microwave roasting on vanadium extraction from stone coal[J].Nonferrous Metals(Extractive Metallurgy),2015(1):46-54.[刘涛,胡鹏程,张一敏,等.含钒石煤微波焙烧提钒试验研究[J].有色金属(冶炼部分),2015(1):46-54.]
[42] Ma Aiyuan,Zhang Libo,Sun Chengyu,et al.Microwave dielectric properties and temperature increasing characteristics on zinc oxide dust with high content of Cl[J].Journal of Central South University(Science and Technology),2015,46(2):410-415.[马爱元,张利波,孙成余,等.高氯氧化锌烟尘微波介电特性及温升特性[J].中南大学学报(自然科学版),2015,46(2):410-415.]
[43] Liu Bingguo,Peng Jinhui,Huang Daifu,et al.Technology to prepare for U3O8 by calcinations from ammonium diuranate in microwave fields[J].Atomic Energy Science and Technology,2011,45(5):523-527.[刘秉国,彭金辉,黄代富,等.微波煅烧重铀酸铵制备U3O8工艺研究[J].原子能科学技术,2011,45(5):523-527.]
[44] Wang Xiaohui,Peng Jinhui,Xia Hongying,et al.Microwave magnetization roasting for iron ore of Huimin in Yunnan Province[J].Journal of Central South University(Science and Technology),2012,43(6):2043-2047.[王晓辉,彭金辉,夏洪应,等.云南惠民铁矿微波磁化焙烧工艺[J].中南大学学报(自然科学版),2012,43(6):2043-2047.]
[45] Zhu Yanli,Peng Jinhui,Zhang Shimin,et al.Studies on microwave drying of sphalerite[J].Nonferrous Metals (Extractive Metallurgy),2005(5):21-24.[朱艳丽,彭金辉,张世敏,等.微波干燥闪锌矿试验研究[J].有色金属(冶炼部分),2005(5):21-24.]
[46] Idris A,Khalid K,Omar W.Drying of silica sludge using microwave heating[J].Applied Thermal Engineering,2004,24(5):905-918.
[47] Pickles C A,Gao F,Kelebek S.Microwave drying of a lowrank sub-bituminous coal[J].Minerals Engineering,2014,62(7):31-42.
[48] Guo Lei,Zhang Libo,Peng Jinhui,et al.Optimization study of microwave drying scheelite concentrate process by RSM[J].Mining and Metallurgy,2012,21(4):54-57.[郭磊,张利波,彭金辉,等.微波干燥白钨精矿响应曲面法优化工艺研究[J].矿冶,2012,21(4):54-57.]
[49] Zhang Yuting,Zhang Zhao,Yuan Xizhi,et al.Microwave drying process and mineral phase analysis of low-grade complex laterite ores[J].Journal of University of Science and Technology Beijing,2010,32(9):1119-1123.[张钰婷,张昭,袁熙志,等.低品位复杂红土镍矿微波干燥及矿相分析[J].北京科技大学学报,2010,32(9):1119-1123.]
[50] Wang Weidong,Yang Xiao,Sun Yuan,et al.Lignite dewatering rule and related influencing factors in the microwave field[J].Journal of China Coal Society,2014,39(6):1159-1163.[王卫东,杨虓,孙远,等.微波场中褐煤水分脱除规律及影响因素分析[J].煤炭学报,2014,39(6):1159-1163.]
[51] Yang Xiao,Ren Yangguang,Wang Jiwei,et al.Characteristics of lignite dehydration in microwave field[J].Coal Engineering,2015,47(2):109-112.[杨虓,任阳光,王继伟,等.微波场下褐煤干燥提质特性的研究[J].煤炭工程,2015,47(2):109-112.]
[52] Ishizaki K,Nagata K. Selectivity of microwave energy  consumption in the reduction of Fe3O4 with carbon black in mixed powder[J].ISIJ International,2007,47(6):811-816.
[53] Standish N,Huang W.Microwave application in carbother  mic-reduction of iron ores[J].ISIJ International,1991,31(3):241-245.
[54] Saidi A,Azari K.Carbothermic reduction of zinc oxide concentrate by microwave[J].Journal of Materials Science & Technology,2005,21(5):724-728.
[55] Luo Siqiang,Liang Yuan.Research on microwave heating process of deoxygenate restoring pyrolusite[J].Popular Science & Technology,2012(1):62-64.[罗思强,梁媛.微波加热还原软锰矿的工艺研究[J].大众科技,2012(1):62-64.]
[56] Jia Jingyan,Zhu Hongbo,Peng Jinhui,et al.Research of reducing ilmenite by combined reducing agent under microwave heating[J].Journal of Iron and Steel Research,2014,26(9):14-18.[贾景岩,朱红波,彭金辉,等.微波复合还原剂还原钛铁矿试验[J].钢铁研究学报,2014,26(9):14-18.]
[57] Zhou Min,Yang Xu,Song Liqiang,et al.Research progress of coal microwave desulphurization[J].Journal of Henan Polytechnic University(Natural Science),2013,32(6):760-767.[周敏,杨絮,宋利强,等.煤炭微波脱硫研究进展[J].河南理工大学学报(自然科学版),2013,32(6):760-767.]
[58] Tang Lijing,Tang Yun,Xu Zhengbo.Experimental research on refractory gold ore pretreated by grinding and leaching simultaneously with non-cyanide[J].Gold Science and Technology,2015,23(1):85-89.[唐立靖,唐云,许正波.难选金矿微波预处理边磨边浸非氰化试验研究[J].黄金科学技术,2015,23(1):85-89.]
[59] Cai Chuangkai.Research on technology of recovering gold from carbonaceous arsenic-bearing gold ores in southwestern Guizhou[J].Gold Science and Technology,2014,22(4):124-128.[蔡创开.黔西南某碳质含砷金矿提金工艺试验研究[J].黄金科学技术,2014,22(4):124-128.]
[60] Zavition P D,Blriler K W.Process for coal desulphurization:US,4076607[P].1978-02-28.
[61] Jorjani E,Rezai B,Vossoughi M.Desulfurization of tabas coal with microwave irradiation/peroxyaccetic acidwashing at 25,55 and 85 ℃[J].Fuel,2004,83(7):943-949.
[62] Waanders F B,Mohamed W,Wagner N J.Changes of pyrite and pyrrhotite in coal upon microwave treatment[J].Journal of Physics:Conference Series,2010,217:12-15.
[63] Liang Baizhan,Chen Xiaohu,Feng He,et al.Test of desulfurization by microwave and digestion of high sulfur bauxite[J].Nonferrous Metals(Extractive Metallurgy),2011(3):23-26.[梁佰战,陈肖虎,冯鹤,等.高硫铝土矿微波脱硫溶出试验[J].有色金属(冶炼部分),2011(3):23-26.]
[64] Sheng Yuhang,Tao Xiuxiang,Xu Ning.Experimental study on influence factors of coal desulfurization under microwave irradiation[J].China Coal,2012,38(4):80-82.[盛宇航,陶秀祥,许宁.煤炭微波脱硫影响因素的试验研究[J].中国煤炭,2012,38 (4):80-82.]
[65] Ge Tao,Zhang Mingxu,Min Fanfei.Response regularity of organic sulfur in coking coal to microwave[J].Journal of China Coal Society,2015,40(7):1648-1653.[葛涛,张明旭,闵凡飞.炼焦煤中有机硫对微波的响应规律[J].煤炭学报,2015,40(7):1648-1653.]
[66] Zhang Wang,Huang Sheng,Wu Shiyong,et al.Coal desulfurization by microwave irradiation and sodium hydroxide leaching[J].Journal of East China University of Science and Technology(Natural Science Edition),2015,41(4):429-434.[张望,黄胜,吴诗勇,等.微波与氢氧化钠共处理脱除煤中有机硫的研究[J].华东理工大学学报(自然科学科学版),2015,41(4):429-434.]
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