“一带一路”国家钾盐及硼资源分布规律与开采技术
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摘要
随着中国经济快速发展,对钾盐和硼矿的需求快速增加。世界钾盐资源主要集中在北美洲和欧洲。在参阅大量资料后,初步估算"一带一路"国家地区钾盐资源量(以K2O当量计算)约112×10~8t,主要分布在柴达木盆地、塔里木盆地、呵叻盆地(含沙空那空盆地)、中亚盆地、死海盆地和涅帕盆地。硼矿资源73%的储量和70%的储量基础分布于美国、土耳其、俄罗斯和哈萨克斯坦,"一带一路"国家中硼资源主要分布于俄罗斯、土耳其、哈萨克斯坦、塞尔维亚等国家。据美国地质调查局2014年公布的数据,世界探明硼储量约2.43×10~8t,"一带一路"地区探明硼储量约1.46×10~8t,约占世界探明硼储量的69.5%。对"一带一路"国家钾盐矿和硼矿资源分布做了详细统计,对典型矿床的地质特征进行了简单的概括,介绍了钾盐和硼矿的开发技术,讨论了中国利用境外钾盐及硼资源的首选地区,为中国企业"走出去"提供有益信息。
With the rapid development of economy in China, the demand for potash salt is rising rapidly. Although there are rich potash resources all over the world, the distribution is uneven in that they are mainly distributed in North America and the Europe. After referring to a large number of data, the authors have made a preliminary estimation of potash resources in the countries of "One Belt,One Road", which reach about 11.2 billion tons(in terms of K_2O equivalent). The total reserves are dominated by six major potashforming basins, i.e., Qaidam Basin, Tarim Basin, Khorat Basin(including Sakon Nakhon Basin), Central Asian basin, Dead Sea Basin and Nepa Basin. The global boron resources are not evenly-distributed, with 73% reserves and 70% reserve bases dispersed in the USA, Turkish, Russia and Kazakhstan. There are abundant boron resources in the countries of "One Belt, One Road", mainly distributed in Russia, Turkey, Kazakhstan, Serbia and some other countries. According to the data published by US Geological Survey(USGS) in 2014, the world's proven reserves of boron are about 243 million tons. The authors have estimated that total boron resource reserves in the countries of "One Belt, One Road" come up to 146 million tons, accounting for about 69.5 percent of the world reserves. The authors made a detailed statistical analysis of distribution of potash and boron resources in the countries of "One Belt, One Road", gave an overview of the geological characteristics of typical deposits, described the exploitation techniques for potash and boron, and discussed the preferred areas for using foreign potash and boron resources, thus providing useful information forChinese enterprises' "going out" policy.
With the rapid development of economy in China, the demand for potash salt is rising rapidly. Although there are rich potash resources all over the world, the distribution is uneven in that they are mainly distributed in North America and the Europe. After referring to a large number of data, the authors have made a preliminary estimation of potash resources in the countries of "One Belt,One Road", which reach about 11.2 billion tons(in terms of K_2O equivalent). The total reserves are dominated by six major potashforming basins, i.e., Qaidam Basin, Tarim Basin, Khorat Basin(including Sakon Nakhon Basin), Central Asian basin, Dead Sea Basin and Nepa Basin. The global boron resources are not evenly-distributed, with 73% reserves and 70% reserve bases dispersed in the USA, Turkish, Russia and Kazakhstan. There are abundant boron resources in the countries of "One Belt, One Road", mainly distributed in Russia, Turkey, Kazakhstan, Serbia and some other countries. According to the data published by US Geological Survey(USGS) in 2014, the world's proven reserves of boron are about 243 million tons. The authors have estimated that total boron resource reserves in the countries of "One Belt, One Road" come up to 146 million tons, accounting for about 69.5 percent of the world reserves. The authors made a detailed statistical analysis of distribution of potash and boron resources in the countries of "One Belt, One Road", gave an overview of the geological characteristics of typical deposits, described the exploitation techniques for potash and boron, and discussed the preferred areas for using foreign potash and boron resources, thus providing useful information forChinese enterprises' "going out" policy.
引文
[1]赵元艺,焦鹏程,李波涛,等.中国可溶性钾盐资源地质特征与潜力评价[J].矿床地质,2010,29(4):650-656.
[2]邢万里,陈其慎.中国钾盐资源安全简析[J].中国矿业,2013,22(12):11-14
[3]唐尧.中国钾盐资源需求前景分析[J].地质论评,2015,61(增刊):812-813
[4]唐尧.中国硼矿资源勘查现状及前景分析[J].国土资源情报,2015,(3):24-28.
[5]周飞飞“.一带一路”,点燃地质工作新梦想[J].国土资源,2015,1(1):22-25.
[6]曹文虎,吴蝉,等.卤水资源及其综合利用技术[M].北京:地质出版社,2004
[7]马鸿文,苏双青,刘浩,等.中国钾资源与钾盐工业可持续发展[J].地学前缘,2010,17(1):294-310.
[8]庾莉萍.我国积极破解钾盐矿资源短缺迷局[J].盐湖研究,2007,15(4):49-55.
[9]国土资源部信息中心.世界矿产资源年评2014[M].北京:地质出版社,2008:270-290.
[10]申军.国内外硼矿资源及硼工业发展综述[J].化工矿物与加工,2013,3:38-41.
[11]唐尧,陈春琳,熊先孝,等.世界硼资源分布及开发利用现状分析[J].现代化工,2013,33(10):1-4,6.
[12]孙小虹,熊先孝,王莹,等.中国硼矿床类型及时空分布规律[J].地质论评,2015,61(增刊):810-811
[13]王孝峰.我国与世界钾资源及开发利用现状[J].磷肥与复肥,2005,20(1):10-13.
[14]Orris G J,Cocker M D,Dunlap P,et al.Potash:a global overview of evaporate-related potash resources,including spatial databases of deposits,occurrences,and permissive tracts:Chapter S in Global mineral resource assessment[M].U.S.Geological Survey,2014.
[15]U.S.Geological Survey.Mineral Commodity Summaries[M].U.S.Geological Survey,2014.
[16]鲍荣华,梁光明.俄罗斯钾盐资源及开发利用情况介绍[J].中国农资,2011,7:46-47.
[17]王春宁,余俊清,陈良,等.钾盐资源全球分布和我国找钾实践及方法探究[J].盐湖研究,2007,15(3):56-72.
[18]李仰景,孙鹰翔,李慧英,等.我国周边国家钾盐资源的分布及开发情况[J].磷肥与复肥,2013,28(4):12-15.
[19]李泽红,李富佳,董锁成,等.中国和白俄罗斯钾肥资源合作态势与潜力研究[J].资源科学,2015,37(6):1295-1303.
[20]李文光.开发泰国、老挝钾盐矿产资源[J].中国地质,1998,9:47-48.
[21]韩豫川,熊先孝,商朋强,等.中国钾盐矿成矿规律[M].北京:地质出版社,2012.
[22]刘成林,王弭力,焦鹏程,等.罗布泊盐湖钾盐矿床分布规律及控制因素分析[J].地球学报,2009,30(6):796-802.
[23]王弭力,刘成林,焦鹏程.罗布泊盐湖钾盐矿床调查科研进展与现状[J].地质论评,2006,52(6):757-764.
[24]李浩,刘传福.罗布泊盐湖资源开发现状及前景[J].化学工业,2008,26(12):10-12.
[25]王弭力,刘成林,焦鹏程,等.罗布泊盐湖钾盐资源[M].北京:地质出版社,2001.
[26]乜贞,卜令忠,刘建华,等.我国盐湖钾盐资源现状及提钾工艺技术进展[J].地球学报,2010,31(6):869-874.
[27]蔡克勤,高建华.察尔汗盐湖钾盐矿床的形成条件[J].地学前缘,1994,1(3/4):231-233.
[28]李波涛,赵元艺,郝爱兵,等.青海察尔汗盐湖固体钾盐物质组成特征[J].矿床地质,2010,29(增刊):381-382.
[29]李承宝,张秀春.青海察尔汗盐湖钾资源开发现状[J].现代矿业,2009,478(2):16-19.
[30]钱自强,等.钾盐矿床[M].北京:地质出版社,1994.
[31]刘群.西伯利亚涅帕钾盐矿床地质、发现经过及其对我国找钾工作的启示[J].地球学报,1995,1:45-54.
[32]朱延浙.老挝万象平原钾盐矿床[J].地质与资源,2008,17(1):45-49.
[33]Hite R J,Japakasetr T.Potash deposits of the Khorat plateau,Thailand and Laos[J].Economic Geology,1979,74(2):448-458.
[34]唐敏,刘成林,焦鹏程,等.世界海相钾盐矿床特征定量化分析及其意义[J].沉积学报,2009,27(2):326-333.
[35]张永生,郑绵平,齐文等.对土库曼斯坦钾盐资源及开发利用的考察[J].矿床地质,2005,24(6):692-696
[36]Rami al Rawashdeh R,Maxwell P.Analysing the world potash industry[J].Resources Policy,2014,41:143-151.
[37]冯元琦.走出去,建立境外钾肥生产基地[J].化肥工业,2000,27(6):34-35,39-59.
[38]顾新鲁,赵振宏,李清海,等.罗布泊地区罗北凹地潜卤水钾矿床成因与开发前景[J].水文地质工程地质,2003,2:32-36.
[39]赵振宏,侯光才,蔡青勤,等.罗布泊钾卤水矿床成矿地质背景[J].新疆地质,2002,20(3):210-213
[40]刘成林,王弭力.罗布泊第四纪沉积环境演化与成钾作用[J].地球学报,1999,2:264-270
[41]顾汉念,王宁,杨永琼,等.不溶性含钾岩石制备钾肥研究现状与评述[J].化工进展,2011,30(11):2450-2455.
[42]曲均峰,赵福军,傅送保,等.非水溶性钾研究现状与应用前景[J].现代化工,2010,30(6):16-19.
[43]白仟,袁俊红,王章俊.国内外水溶性钾盐资源及我国钾盐产业发展现状[J].资源与产业,2014,16(2):37-46.
[44]程玉刚,张忠辉,兰尧中.我国钾盐制钾肥开发利用现状[J].现代矿业,2011,502(2):92-94.
[45]李武,董亚萍,宋彭生,等.盐湖卤水资源开发利用[M].北京:化学工业出版社,2012.
[46]王万金,白志民,马鸿文.利用不溶性钾矿提钾的研究现状及展望[J].地质科技情报,1996,15(3):59-62.
[47]刘杰,韩跃新,印万忠.难溶性钾矿资源制备钾肥研究现状及展望[J].有色矿冶,2005,21(增刊):172-174.
[48]U.S.Geological Survey.Mineral Commodity Summaries[M].U.S.Geological Survey,2013.
[49]赵元艺,符家骏,李运.塞尔维亚贾达尔盆地超大型锂硼矿床[J].地质评论,2015,61(1):34-44
[50]李文光.我国硼矿资源概况及利用[J].化工矿物与加工,2002,9:37.
[51]Kistler R B,Helvaci C.Boron and borates[J].Industrial minerals and rocks,1994,6:171-186.
[52]刘喜方,郑绵平.西藏扎布耶超大型锉、硼矿床地质背景及其形成演化[J].化工矿产地质,1999,21(2):65-68
[53]王伟,王刚,赵元艺,等.西藏盐湖硼矿资源特点与开发利用[J].盐业与化工,2013,42(8):9-12
[54]魏新俊.柴达木盆地盐湖钾硼锂资源概况及开发前景[J].青海国土经略,2002,增刊:64-69.
[55]田润,韩凤清,马海州,等.察尔汗盐湖别勒滩区段晶间卤水的主要离子分布特征[J].盐湖研究,2007,3:7-13.
[56]吕鹏,张志杰,范宇峰.辽宁丹东宽甸地区硼矿资源潜在价值评价[J].中国矿业,2012,21(增刊):101-105
[57]刘敬党,肖荣阁,王文武,等.辽东硼矿区域成矿模型[M].北京:地质出版社,2007
[58]曹开春,贺孟清.土耳其火山沉积硼矿床成矿条件综述[J].化工矿产地质,1999,21(2):95-111
[59]Helvaci C.Stratigraphy,mineralogy,and genesis of the Bigadic borate deposits,Western Turkey[J].Economic Geology,1995,90(5):1237-1260.
[60]Helvaci C.Mineral assemblages and formation of the Kestelek and Sultanqayiri borate deposits[C]//Proc.29thInt'l.Geol.Congr.,1994,Part A:245-264.
[61]Palmer M R,Helvaci C.The boron isotope geochemistry of the Kirka borate deposit,western Turkey[J].Geochimica et Cosmochimica Acta,1995,59(17):3599-3605.
[62]曹开春.独联体国家的硼资源及加工利用概况[J].化工矿产地质,1998,1:67-68.
[63]邵世宁,熊先孝.中国硼矿主要矿集区及其资源潜力探讨[J].化工矿产地质,2010,32(2):65-74.
[64]Richard K R.Pan Global Resources Inc.,Jadar West Lithium-Boron Project,Serbia,Jadar West Lithium Boron Project,Serbia,NI43-101 Technical Report[EB/OL](2015-10-25)[2015-11-29]http://panglobalresources.com/_resources/presentations/presentation.pdf.2010.
[65]尹淑苹,任玉峰.新矿物(2007.1~2007.12)[J].岩石矿物学杂志,2010,29(4):445-451.
[66]Stanley C J,Jones G C,Rumsey M S,et al.Jadarite,Li Na Si B3O7(OH),a new mineral species from the Jadar Basin,Serbia[J].European Journal of Mineralogy,2007,19(4):575-580.
[67]王生志,徐大地,张琦.后仙峪硼矿区硼矿地质特征及其成因探讨[J].地质与资源,2003,12(4):221-227.
[68]曹洪亮,李洋.大石桥市后仙峪硼矿区硼矿床特征[J].矿床地质,2008,27(增):76-77.
[69]Dsikowitzky L,Schwarzbauer J.Chemical and stable isotopic compositions of Proterozoic metamorphosed evaporites and associated tourmalines from the Houxianyu borate deposit,eastern Liaoning,China[J].Chemical Geology,1997,135(3/4):189-211.
[70]冯本智,邹日.辽宁营口后仙峪硼矿床特征及成因[J].地学前缘,1994,4:235-237.
[71]夏学惠,赵玉海,闫飞.辽东-吉南地区硼矿床地质特征及成矿远景[J].化工矿产地质,2007,29(3):169-177
[72]周永恒.辽东地区硼矿矿产资源评价[D].吉林大学博士学位论文,2011.
[73]刘然,薛向欣,刘欣,等.我国硼资源加工工艺与硼材料应用进展[J].硅酸盐通报,2006,25(6):102-107.
[74]张亨.硼酸生产研究进展[J].宁波化工,2012,4:7-11.
[75]胡伟,杨晓军,符寒光.含硼矿中硼的提取工艺技术现状及趋势[J].有色金属科学与工程,2015:1-11
[76]王令,杨曾焜.碳碱法加工硼镁矿制硼砂[J].无机盐工业,2005,37(10):31-33.
[77]朱建华,魏新明,马淑芬,等.硼资源及其加工利用技术进展[J].现代化工,2005,25(6):26-29.
[78]于长水,海燕,安峰.硼酸制备工艺综述[J].化工科技市场,2009,32(6):17-18.
[79]张珍,钟辉,王涛.沉淀法提取卤水中硼的研究进展[J].内蒙古石油化工,2008,1:7-9.
[80]朱明松.老挝钾盐矿资源规模化开发的总体思路[J].云南化工,2013,40(6):1-4.
(1)郑绵平.应保护性开采本国钾盐资源--青海格尔木“2015世界钾盐钾肥大会”专家发言集锦(一)(.中国无机盐工业协会,2015.
(2)刘吉成摘译.白俄罗斯钾肥自由控股公司是世界钾肥生产企业的龙头老大.国外地学动态(内部参考),2015,3:21-24.
(3)Podlesny I.白俄罗斯钾肥工业对未来充满信心--青海格尔木“2015世界钾盐钾肥大会”专家发言集锦(十).中国无机盐工业协会,2015.
(4)何永平.中国企业境外找钾初见成果--青海格尔木“2015世界钾盐钾肥大会”专家发言集锦(五).中国无机盐工业协会,2015.
(5)周茂普.矿山固体钾盐开采技术--青海格尔木“2015世界钾盐钾肥大会”专家发言集锦(二十五).中国无机盐工业协会,2015.
(6)刘建明.难溶性钾资源及开发现状--青海格尔木“2015世界钾盐钾肥大会”专家发言集锦(十四).中国无机盐工业协会,2015.
[2]邢万里,陈其慎.中国钾盐资源安全简析[J].中国矿业,2013,22(12):11-14
[3]唐尧.中国钾盐资源需求前景分析[J].地质论评,2015,61(增刊):812-813
[4]唐尧.中国硼矿资源勘查现状及前景分析[J].国土资源情报,2015,(3):24-28.
[5]周飞飞“.一带一路”,点燃地质工作新梦想[J].国土资源,2015,1(1):22-25.
[6]曹文虎,吴蝉,等.卤水资源及其综合利用技术[M].北京:地质出版社,2004
[7]马鸿文,苏双青,刘浩,等.中国钾资源与钾盐工业可持续发展[J].地学前缘,2010,17(1):294-310.
[8]庾莉萍.我国积极破解钾盐矿资源短缺迷局[J].盐湖研究,2007,15(4):49-55.
[9]国土资源部信息中心.世界矿产资源年评2014[M].北京:地质出版社,2008:270-290.
[10]申军.国内外硼矿资源及硼工业发展综述[J].化工矿物与加工,2013,3:38-41.
[11]唐尧,陈春琳,熊先孝,等.世界硼资源分布及开发利用现状分析[J].现代化工,2013,33(10):1-4,6.
[12]孙小虹,熊先孝,王莹,等.中国硼矿床类型及时空分布规律[J].地质论评,2015,61(增刊):810-811
[13]王孝峰.我国与世界钾资源及开发利用现状[J].磷肥与复肥,2005,20(1):10-13.
[14]Orris G J,Cocker M D,Dunlap P,et al.Potash:a global overview of evaporate-related potash resources,including spatial databases of deposits,occurrences,and permissive tracts:Chapter S in Global mineral resource assessment[M].U.S.Geological Survey,2014.
[15]U.S.Geological Survey.Mineral Commodity Summaries[M].U.S.Geological Survey,2014.
[16]鲍荣华,梁光明.俄罗斯钾盐资源及开发利用情况介绍[J].中国农资,2011,7:46-47.
[17]王春宁,余俊清,陈良,等.钾盐资源全球分布和我国找钾实践及方法探究[J].盐湖研究,2007,15(3):56-72.
[18]李仰景,孙鹰翔,李慧英,等.我国周边国家钾盐资源的分布及开发情况[J].磷肥与复肥,2013,28(4):12-15.
[19]李泽红,李富佳,董锁成,等.中国和白俄罗斯钾肥资源合作态势与潜力研究[J].资源科学,2015,37(6):1295-1303.
[20]李文光.开发泰国、老挝钾盐矿产资源[J].中国地质,1998,9:47-48.
[21]韩豫川,熊先孝,商朋强,等.中国钾盐矿成矿规律[M].北京:地质出版社,2012.
[22]刘成林,王弭力,焦鹏程,等.罗布泊盐湖钾盐矿床分布规律及控制因素分析[J].地球学报,2009,30(6):796-802.
[23]王弭力,刘成林,焦鹏程.罗布泊盐湖钾盐矿床调查科研进展与现状[J].地质论评,2006,52(6):757-764.
[24]李浩,刘传福.罗布泊盐湖资源开发现状及前景[J].化学工业,2008,26(12):10-12.
[25]王弭力,刘成林,焦鹏程,等.罗布泊盐湖钾盐资源[M].北京:地质出版社,2001.
[26]乜贞,卜令忠,刘建华,等.我国盐湖钾盐资源现状及提钾工艺技术进展[J].地球学报,2010,31(6):869-874.
[27]蔡克勤,高建华.察尔汗盐湖钾盐矿床的形成条件[J].地学前缘,1994,1(3/4):231-233.
[28]李波涛,赵元艺,郝爱兵,等.青海察尔汗盐湖固体钾盐物质组成特征[J].矿床地质,2010,29(增刊):381-382.
[29]李承宝,张秀春.青海察尔汗盐湖钾资源开发现状[J].现代矿业,2009,478(2):16-19.
[30]钱自强,等.钾盐矿床[M].北京:地质出版社,1994.
[31]刘群.西伯利亚涅帕钾盐矿床地质、发现经过及其对我国找钾工作的启示[J].地球学报,1995,1:45-54.
[32]朱延浙.老挝万象平原钾盐矿床[J].地质与资源,2008,17(1):45-49.
[33]Hite R J,Japakasetr T.Potash deposits of the Khorat plateau,Thailand and Laos[J].Economic Geology,1979,74(2):448-458.
[34]唐敏,刘成林,焦鹏程,等.世界海相钾盐矿床特征定量化分析及其意义[J].沉积学报,2009,27(2):326-333.
[35]张永生,郑绵平,齐文等.对土库曼斯坦钾盐资源及开发利用的考察[J].矿床地质,2005,24(6):692-696
[36]Rami al Rawashdeh R,Maxwell P.Analysing the world potash industry[J].Resources Policy,2014,41:143-151.
[37]冯元琦.走出去,建立境外钾肥生产基地[J].化肥工业,2000,27(6):34-35,39-59.
[38]顾新鲁,赵振宏,李清海,等.罗布泊地区罗北凹地潜卤水钾矿床成因与开发前景[J].水文地质工程地质,2003,2:32-36.
[39]赵振宏,侯光才,蔡青勤,等.罗布泊钾卤水矿床成矿地质背景[J].新疆地质,2002,20(3):210-213
[40]刘成林,王弭力.罗布泊第四纪沉积环境演化与成钾作用[J].地球学报,1999,2:264-270
[41]顾汉念,王宁,杨永琼,等.不溶性含钾岩石制备钾肥研究现状与评述[J].化工进展,2011,30(11):2450-2455.
[42]曲均峰,赵福军,傅送保,等.非水溶性钾研究现状与应用前景[J].现代化工,2010,30(6):16-19.
[43]白仟,袁俊红,王章俊.国内外水溶性钾盐资源及我国钾盐产业发展现状[J].资源与产业,2014,16(2):37-46.
[44]程玉刚,张忠辉,兰尧中.我国钾盐制钾肥开发利用现状[J].现代矿业,2011,502(2):92-94.
[45]李武,董亚萍,宋彭生,等.盐湖卤水资源开发利用[M].北京:化学工业出版社,2012.
[46]王万金,白志民,马鸿文.利用不溶性钾矿提钾的研究现状及展望[J].地质科技情报,1996,15(3):59-62.
[47]刘杰,韩跃新,印万忠.难溶性钾矿资源制备钾肥研究现状及展望[J].有色矿冶,2005,21(增刊):172-174.
[48]U.S.Geological Survey.Mineral Commodity Summaries[M].U.S.Geological Survey,2013.
[49]赵元艺,符家骏,李运.塞尔维亚贾达尔盆地超大型锂硼矿床[J].地质评论,2015,61(1):34-44
[50]李文光.我国硼矿资源概况及利用[J].化工矿物与加工,2002,9:37.
[51]Kistler R B,Helvaci C.Boron and borates[J].Industrial minerals and rocks,1994,6:171-186.
[52]刘喜方,郑绵平.西藏扎布耶超大型锉、硼矿床地质背景及其形成演化[J].化工矿产地质,1999,21(2):65-68
[53]王伟,王刚,赵元艺,等.西藏盐湖硼矿资源特点与开发利用[J].盐业与化工,2013,42(8):9-12
[54]魏新俊.柴达木盆地盐湖钾硼锂资源概况及开发前景[J].青海国土经略,2002,增刊:64-69.
[55]田润,韩凤清,马海州,等.察尔汗盐湖别勒滩区段晶间卤水的主要离子分布特征[J].盐湖研究,2007,3:7-13.
[56]吕鹏,张志杰,范宇峰.辽宁丹东宽甸地区硼矿资源潜在价值评价[J].中国矿业,2012,21(增刊):101-105
[57]刘敬党,肖荣阁,王文武,等.辽东硼矿区域成矿模型[M].北京:地质出版社,2007
[58]曹开春,贺孟清.土耳其火山沉积硼矿床成矿条件综述[J].化工矿产地质,1999,21(2):95-111
[59]Helvaci C.Stratigraphy,mineralogy,and genesis of the Bigadic borate deposits,Western Turkey[J].Economic Geology,1995,90(5):1237-1260.
[60]Helvaci C.Mineral assemblages and formation of the Kestelek and Sultanqayiri borate deposits[C]//Proc.29thInt'l.Geol.Congr.,1994,Part A:245-264.
[61]Palmer M R,Helvaci C.The boron isotope geochemistry of the Kirka borate deposit,western Turkey[J].Geochimica et Cosmochimica Acta,1995,59(17):3599-3605.
[62]曹开春.独联体国家的硼资源及加工利用概况[J].化工矿产地质,1998,1:67-68.
[63]邵世宁,熊先孝.中国硼矿主要矿集区及其资源潜力探讨[J].化工矿产地质,2010,32(2):65-74.
[64]Richard K R.Pan Global Resources Inc.,Jadar West Lithium-Boron Project,Serbia,Jadar West Lithium Boron Project,Serbia,NI43-101 Technical Report[EB/OL](2015-10-25)[2015-11-29]http://panglobalresources.com/_resources/presentations/presentation.pdf.2010.
[65]尹淑苹,任玉峰.新矿物(2007.1~2007.12)[J].岩石矿物学杂志,2010,29(4):445-451.
[66]Stanley C J,Jones G C,Rumsey M S,et al.Jadarite,Li Na Si B3O7(OH),a new mineral species from the Jadar Basin,Serbia[J].European Journal of Mineralogy,2007,19(4):575-580.
[67]王生志,徐大地,张琦.后仙峪硼矿区硼矿地质特征及其成因探讨[J].地质与资源,2003,12(4):221-227.
[68]曹洪亮,李洋.大石桥市后仙峪硼矿区硼矿床特征[J].矿床地质,2008,27(增):76-77.
[69]Dsikowitzky L,Schwarzbauer J.Chemical and stable isotopic compositions of Proterozoic metamorphosed evaporites and associated tourmalines from the Houxianyu borate deposit,eastern Liaoning,China[J].Chemical Geology,1997,135(3/4):189-211.
[70]冯本智,邹日.辽宁营口后仙峪硼矿床特征及成因[J].地学前缘,1994,4:235-237.
[71]夏学惠,赵玉海,闫飞.辽东-吉南地区硼矿床地质特征及成矿远景[J].化工矿产地质,2007,29(3):169-177
[72]周永恒.辽东地区硼矿矿产资源评价[D].吉林大学博士学位论文,2011.
[73]刘然,薛向欣,刘欣,等.我国硼资源加工工艺与硼材料应用进展[J].硅酸盐通报,2006,25(6):102-107.
[74]张亨.硼酸生产研究进展[J].宁波化工,2012,4:7-11.
[75]胡伟,杨晓军,符寒光.含硼矿中硼的提取工艺技术现状及趋势[J].有色金属科学与工程,2015:1-11
[76]王令,杨曾焜.碳碱法加工硼镁矿制硼砂[J].无机盐工业,2005,37(10):31-33.
[77]朱建华,魏新明,马淑芬,等.硼资源及其加工利用技术进展[J].现代化工,2005,25(6):26-29.
[78]于长水,海燕,安峰.硼酸制备工艺综述[J].化工科技市场,2009,32(6):17-18.
[79]张珍,钟辉,王涛.沉淀法提取卤水中硼的研究进展[J].内蒙古石油化工,2008,1:7-9.
[80]朱明松.老挝钾盐矿资源规模化开发的总体思路[J].云南化工,2013,40(6):1-4.
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