秘鲁Don Javier铜矿成矿地质特征与开发模式研究及推广
|
摘要
Don Javier铜矿地处秘鲁南部古近纪-新近纪斑岩铜矿成矿带,是一个品位低、规模相对较小,开发难度相对较大的斑岩型铜矿。本文研究了矿床的成矿地质特征,提出了合理的采选、运输、销售综合开发方案,探索了该类型矿床的境外投资开发模式。通过对铜市场分析,预测了未来短期内铜需求量稳中有升。研究了Don Javier铜矿成矿地质特征,与同成矿带的其它超大型斑岩铜矿对比分析,提出了矿床具有赋矿岩浆岩时段集中、控矿构造上受深大断裂影响明显、成矿期次上在前期斑岩成矿并受后期斑岩活动破坏改造等共同特点。采用自然崩落法作为采矿方法、铜钼优先浮选,合理保护环境、便利的运输方案、矿产品销售回中国的综合开发方案,技术经济评价说明项目在当前条件下可行。运用SWOT分析法,对项目进行了内部优势、内部劣势、外部机遇、外部威胁分析,项目开发以期权方式整体收购为开端,以国内在隐伏矿体、深部矿体探测方面的技术力量为基础,凭借高效灵活的地质、地球物理和钻探队伍进行勘探,与内外知名矿业咨询公司合作进行高水平研究与设计;充分利用国产设备,采用科学合理的采选矿方法;尊重当地的法律法规和环保要求,实现属地化管理;充分利用秘鲁经济发展势头良好,投资政策及法律稳定,国家重视矿业发展及中秘关系友好,中国政策支持到秘鲁投资等机遇,形成了“勘探队伍自有化、人才培养复合化、专业设备中国化、管理与技术团队本土化、研究与设计专业化”的境外铜矿经济开发模式。针对Don Javier项目采取了正确评估资源风险等措施积极减小或规避风险,并提出正确认识资源风险在投资风险中所占的比重等8方面措施,为境外矿业投资和开发规避风险提供参考。
Don Javier copper deposit is located in the Peruvian porphyry metallogenic belt ofPaleogene-Neogene era. The present studies the mineralization features and proposesa reasonable and comprehensive development plan including mining and ore dressing,transportation and sales, and it also explores the foreign investment and developmentmodel of this type of deposit. According to the copper market analysis, it forecaststhe short-term demand for copper remains steadily high. It studies the geologicalcharacteristics of Don Javier copper deposit, and by comparing with other super-largeporphyry copper deposits in the same metallogenic belt, it puts forward the followingcommon characteristics: the periods of magmatic rocks hosting minerals are close toeach other, the ore-controlling structures are apparently affected by deep faults, theearly porphyry mineralization is destroyed and altered by the posterior porphyryactivities. The economic-technical evaluation explains the viability in currentconditions by adopting the comprehensive development plan, which is using thecaving method and Cu and Mo preferential flotation, reasonable environmentprotection, convenient transportation solution and sales back to China. It employsSWOT method to analyze the project with respect to interior advantages,disadvantages, external opportunities and threats. The project development beginswith overall acquisition by option, based on the domestic technical strength ofdetection in concealed orebodies and deep orebodies, with the help of efficient andflexible geological, geophysical and exploration teams, carries out high-qualitystudies and designing in cooperation with domestic and overseas well-known miningconsulting companies; it will make good use of equipment made in China and adoptreasonable and scientific mining and processing methods; the local laws, regulationsand environmental requirement will be respected, the administration will be localized;it will take advantage of the following opportunities, such as Peruvian good economicdevelopment tendency, the national attention on mining development and the goodrelationship between both countries and national supporting policy of investment inPeru. It has formed a foreign copper development model “proper exploration team, composite talents and professional equipment made in China, managementlocalization and technical team and professionalized investigation&design as well.”For Don Javier project, proper assessment of resource risk has been taken to reduce oravoid risks, and measures in8aspects have been proposed in order to understandcorrectly the percentage of resource risk in the investment risk. It provides referencesfor risk aversion for overseas mining investment and development.
Don Javier copper deposit is located in the Peruvian porphyry metallogenic belt ofPaleogene-Neogene era. The present studies the mineralization features and proposesa reasonable and comprehensive development plan including mining and ore dressing,transportation and sales, and it also explores the foreign investment and developmentmodel of this type of deposit. According to the copper market analysis, it forecaststhe short-term demand for copper remains steadily high. It studies the geologicalcharacteristics of Don Javier copper deposit, and by comparing with other super-largeporphyry copper deposits in the same metallogenic belt, it puts forward the followingcommon characteristics: the periods of magmatic rocks hosting minerals are close toeach other, the ore-controlling structures are apparently affected by deep faults, theearly porphyry mineralization is destroyed and altered by the posterior porphyryactivities. The economic-technical evaluation explains the viability in currentconditions by adopting the comprehensive development plan, which is using thecaving method and Cu and Mo preferential flotation, reasonable environmentprotection, convenient transportation solution and sales back to China. It employsSWOT method to analyze the project with respect to interior advantages,disadvantages, external opportunities and threats. The project development beginswith overall acquisition by option, based on the domestic technical strength ofdetection in concealed orebodies and deep orebodies, with the help of efficient andflexible geological, geophysical and exploration teams, carries out high-qualitystudies and designing in cooperation with domestic and overseas well-known miningconsulting companies; it will make good use of equipment made in China and adoptreasonable and scientific mining and processing methods; the local laws, regulationsand environmental requirement will be respected, the administration will be localized;it will take advantage of the following opportunities, such as Peruvian good economicdevelopment tendency, the national attention on mining development and the goodrelationship between both countries and national supporting policy of investment inPeru. It has formed a foreign copper development model “proper exploration team, composite talents and professional equipment made in China, managementlocalization and technical team and professionalized investigation&design as well.”For Don Javier project, proper assessment of resource risk has been taken to reduce oravoid risks, and measures in8aspects have been proposed in order to understandcorrectly the percentage of resource risk in the investment risk. It provides referencesfor risk aversion for overseas mining investment and development.
引文
[1] Caldas J. Geologia de los cuadrangulos de San Juan, Acari y Yaucaa. Lima, Peru, Boletin:Instituto Geologico Minero y Metalurgico del Peru,1978.30-78
[2] Carpio. M. Inventario y evaluacion de los recursos minerales de losDepartamentos de Tacna,Moquegua y areas de Arequipa y Puno. Proyecto Multinacional Andino. INGEMMET,Lima,2000.35-68
[3] Cheng Q.,Agterberg F. P., Bonham-Carter G. F. A spatial analysis method for geochemicalanomaly separation. Geochemistry Exploration,1994,51:109-130
[4] Cooke D R.,Hollings P., Walsh J L. Giant Porphyry deposits: Characteristics, distribution,and tectonic controls. Economic Geology,2005,100(5):801-818
[5] Cordani U G.,Milani E J., Thomaz Filho A.,et al. Tectonicevoluti on of South America:Brazil-31″International Geological Congress,2000.453-688
[6] Davidson J P.,Harmon R S., Womer G. The source of Central Andeanmagmas:someconsiderations,inHarmon,R.S.and Rapela,C.W.,eds.,Andean magmatism andits tectonic setting. Geological Society of America Special Paper,1993,265:233-243
[7] Emmons W H. Principles of Economic Geology. New York: McGraw-Hill,1918
[8] Force E R. Laramide alteration of Proterozoic diabase: A likelycontributor of copper toporphyry systems in the Dripping Springmountains area, southeastern Arizona. EconomicGeology,1998,93(2):171-183
[9] Griffiths J C. Mineral Resource Assessment Using the Regional Value Concept.J.Int.Assoe.Math.Geol.,1978,10(5):441-472
[10] Hollister V F.,Potter R R., Barker A L. Porphyry-type deposits of the Appalachian orogen.Economic Geologists,1974,69(5):618-630
[11] Instituto Geológico Minero Y Metalúrgico. Estudio de los Recursos Minerales delPerú,2003.12-25
[12] Janetski N. D.,Woodburn S. I., Woods R. An electrochemical investigation of pyriteflotation and depression. International Journal of Mineral Processing,1977,4(3):227-239
[13] Lowell J D. Regional characterisitics of porphyry copper deposits of the Southwest.Economic Geology,1974,69(5):601-617
[14] Mason D R. Compositional variation in ferromagnesian minerals from porphyry coppergenerating and barren intrusions of theWestern Highlands,Papua New Guinea. EconomicGeology,1978,73(5):878-890
[15] McInnes Brent I. A., Cameron Eion M. Carbonated, alkaline hybridizing melts from asub-arc environment: Mantle wedge samples from the Tabar-Lihir-Tanga-Feni arc,PapuaNew Guinea. Earth and Planetary Science Letters,1994,122(1-2):125-141
[16] Misra K C. Understanding Mineral Deposits. Dordrecht: Klawer Academic Publishers,2000.353-413
[17] Nakata Toshihiko. Energy-economic models and the environment. Progress in Energy andCombustion Science,2004,30(4):417-475
[18] Oscar Concha. Prospecting, exploration and development of CUAJONE deposit,Lima,2011
[19] Pierre Callot,Thierry Sempere, Francis Odonnen. Giant submarine collapse of a carbonateplatformat the Turonian-Coniacian transition:The Ayabacas Formation, southern Peru.Basin Research,2008,20:333-357
[20] Richards J P. Tectono-magmatic precursors for porphyry Cu-(Mo-Au) deposit formation.Economic Geology,2003,98(8):1515-1533
[21] Richards J P.,Boyce A J., Pringle M S. Geologic evolution of the Escondida area, northernChile: A model for spatial and temporal localization of porphyry Cu mineralization.Economic Geology,2001,96(2):271-305
[22] Ruben Mattos, Jose Valle. Exploration and development of TOQUEPALAdeposit,Lima,2010
[23] Sillitoe R H. Characteristics and controls of the largest porphyry copper-gold andepithermal gold deposits in the circum-Pacific region. Australian Journal of EarthSciences,1972,44(3):373-388
[24] Sillitoe R H. Porphyry Copper Systems. Economic Geology,2010,105(1):3-41
[25] Solomon M. Subduction, arc reversal, and the origin of porphyry copper-gold deposits inisland arcs. Geology,1990,18(7):630-633
[26] Southwestern Gold Corpporation. Geological Assessment of Draft Porphyry Copper SantaCatalina,1997.56-69
[27] Tatsumi Y.,Hamilton D. L., Nesbitt R. W. Chemical characteristics of fluid phase releasedfrom a subducted lithosphere and origin of arc magmas: Evidence from high-pressureexperiments and natural rocks. Journal of Volcanology and GeothermalResearch,1986,29(1-4):293-309
[28] Thierry S.,Javier J., Victor C.,et al. Sistemas transcurrentesdeescalalitosfericaenel SurdelPeru: Publicacion Especial Sgp N°5,2004.105-110
[29] Ulrich T.,Gunther D., Heinrich C A. Gold concent rations of magmatic brines and the metalbudget of porphyry copper deposits. Nature,1999,399(17):676-679
[30] William M V. Revisión de los controles tectonomagmáticos en la exploracion de pórfidosde cobre-un ejemplo de emplazamientos en terrenos jurasicos a paleocenos-sur dePerú,Lima:Desafío minerosac una empresa de consorcio minero horizonte,2012
[31] William M V. The Late Paleozoic-Early Mesozoic Chocolate Formation of southern Peru:New data and interpretations,The international symposium on andean geodynamics,extended abstracts,2005.490-492
[32] R.鲍温,A冈纳提拉卡.著,张炳烯李文达.译.铜矿地质及铜的经济评价.北京:地质出版社,1982
[33] T J奥尼尔.低品位铁矿山如何保持竞争力.矿业工程,2004,2(2):9-12
[34] В И里亚波伊,李长根,杨歧云.带有弱捕收性能的起泡剂的应用.国外金属矿选矿,2005,42(1):17-18
[35]鲍海文.特大型低品位有色矿山基地建设新模式的探索.有色金属(矿山部分),2012,64(1):63-65
[36]陈浩然.深部铜矿开采技术现状浅析.甘肃有色金属,1995(4):1-6
[37]陈宏,代淑娟,马广清.处理某高砷难选铜矿石的试验研究.有色矿冶,1999(03):37-40
[38]陈会全.大红山铜矿伴生金银综合回收技术试验研究.云南冶金,2005,34(3):24-26
[39]陈立铭.铜资源风险投资研究:[博士学位论文].吉林大学,2010
[40]陈小明.矿山总体技术方案综合评价.化工矿山技术,1998(02):36-39
[41]陈秀法,赵宏军,韩九曦,等.秘鲁的矿业管理及投资环境.中国矿业,2013,22(3):42-44,86
[42]陈远望.秘鲁的有色金属矿业.世界有色金属,2009(01):80-82
[43]董世华.冬瓜山铜矿大团扇矿床采矿工艺及其应用.金属矿山,2007,37(8):24-26
[44]杜海青.大型低品位有色金属矿山高校开发对策.黄金,2012,33(2):1-3
[45]符剑刚,钟宏,欧乐明.巯基乙酸在铜钼分离中的应用.矿冶工程,2002,22(4):36-38
[46]冈本秀征.铜堆浸的现状和将来.国外金属矿选矿,2004,41(7):4-9
[47]高合明.斑岩铜矿床研究综述.地球科学进展,1995,10(1):40-46
[48]高阳,谢英亮.矿山低品位矿利用经济分析模型与应用.金属矿山,2004(3):5-7,66
[49]高玉宝,余斌,龙涛.有色矿山低品位矿床开采技术进步与发展方向.有色金属(矿山部分),2010,62(2):4-7
[50]高志飞.露天矿用国产大型电铲、卡车的性能及经济性分析.矿业装备,2011(1):52-55
[51]郭娟,刘树臣.秘鲁矿产资源及中秘矿业合作前景.国土资源情报,2010(7):33-38
[52]郭娟,刘树臣.秘鲁矿产资源及中秘矿业合作前景.国土资源情报,2010(7):33-38
[53]侯增谦,潘小菲,杨志明,等.初论大陆环境斑岩铜矿.现代地质,2007,21(2):332-351
[54]侯增谦,莫宣学,高永丰,等.埃达克岩:斑岩铜矿的一种可能的重要含矿母岩——以西藏和智利斑岩铜矿为例.矿床地质,2003,22(1):1-12
[55]胡建国.用MOS—2和MA—1混合捕收剂浮选含金硫化铜矿.矿冶工程,2001,21(2):43-44
[56]黄建明.利用国外铜资源发展我国铜工业.世界有色金属,2000(02):32-35
[57]贾文龙,陈甲斌.低品位铁矿资源开发经济型分析.金属矿山,2009(3):1-4
[58]蒋开喜,李岚.浅谈中国铜工业现状与西部铜资源开发技术.矿冶,2002,11(z1):23-27,95
[59]金文强.秘鲁南部Cercana-Don jovier斑岩铜矿地质特征及成因探讨:[硕士学位论文].中南大学,2010
[60]李春鹏.秘鲁南部多金属矿区成矿预测与勘察分析:[硕士学位论文].中南大学,2010
[61]李建宏,申保川.斑岩铜矿的蚀变分带及成因模型.科协论坛(下半月),2011(3):106-107
[62]李晓妹,袭燕燕.秘鲁矿业特许权登记很方便.河南国土资源,2005(10):39
[63]李兴国.我国企业境外石油投资的法律风险防范机制.福建行政学院福建经济管理干部学院学报,2008(2):59-63
[64]李占金,韩现民,甘德清,等.石人沟铁矿露天转地下过渡期采场结构参数研究.矿业研究与开发,2008,28(3):1-2
[65]李长安,宋忠宝,赵东宏,等.北祁连山石居里富铜矿选矿性试验与研究.西北地质,2005,38(1):78-82
[66]梁殿印,吴建明,沈政昌,等.矿物加工设备新进展.矿冶,2002,11(z1):60-74
[67]刘红霞.中国境外投资风险及其防范研究.中央财经大学学报,2006(3):63-67
[68]刘建国,吴一微.中矿选择分级再磨浮选新工艺的研究与应用.有色金属(选矿部分),2002(2):20-21
[69]刘金平,李万亨,华建伟,等.矿产资源经济若干问题的思考.中国矿业,2008,17(5):26-28,32
[70]鲁沙诺夫著苏,张志新译.矿产资源经济评价:中国地质矿产经济研究院,1991.36-40
[71]鹿爱莉,孙志伟,马静.国内外矿产资源开发利用技术经济评价.中国矿业,2008,17(3):11-13
[72]罗廉明,黄国宝,李根,等.改进铜录山铜矿石浮选用药试验.武汉化工学院学报,2004,26(1):22-23,31
[73]罗晓玲.国内外铜矿资源分析.世界有色金属,2000(4):4-10
[74]马鸿文.藏东玉龙斑岩铜矿带花岗岩类与成矿.武汉:中国地质大学出版社,1990.1-158
[75]毛景文,张作衡,王义天.国外主要矿床类型、特点及找矿勘查.北京:地质出版社,2012
[76]孟祥金,侯增谦,李振清.西藏驱龙斑岩铜矿S、Pb同位素组成:对含矿斑岩与成矿物质来源的指示.地质学报,2006,80(4):554-560
[77]蒲志仲,钟艳阳.矿产资源商品化、价值化和资产化刍议.中南财经大学学报,1997(01):126-130
[78]芮宗瑶,侯增谦,李光明,等.俯冲、碰撞、深断裂和埃达克岩与斑岩铜矿.地质与勘探,2006,42(1):1-6
[79]芮宗瑶,张立生,陈振宇,等.斑岩铜矿的源岩或源区探讨.岩石学报,2004,20(2):229-238
[80]芮宗瑶.中国斑岩铜(钼)矿床.北京:地质出版社,1984
[81]宋国明.投资秘鲁矿业的机遇与风险.国土资源情报,2010(3):29-33
[82]宋国耀,张晓华,肖克炎,等.矿产资源潜力评价的理论和GIS技术.物探化探计算技术,1999,21(3):199-205
[83]唐业茂,曾晓文.自然崩落采矿法技术应用探讨.有色金属(矿山部分),2010,62(3):9-10,22
[84]汪青梅,邱木清.微生物浸矿技术在处理低品位铜矿中的应用现状.湿法冶金,2005,24(1):5-8
[85]王安建,王高尚,陈其慎,等.矿产资源需求理论与模型预测.地球学报,2010,31(2):137-147
[86]王安建,王高尚,张建华,等.矿产资源与国家经济发展.北京:地震出版社,2002
[87]王高尚,王安建,等.能源与国家经济发展.北京:地质出版社,2008
[88]王珩.高硫铜矿石分步优先浮选中矿再磨再选工艺流程研究及探讨.有色金属(选矿部分),2003(5):10-14
[89]王龙明,任凤玉,张永亮.大型深凹露天转井下深部开采技术研究.中国矿业,2005,14(7):57-59
[90]王同荣,方维萱.云南省东川滥泥坪铜矿低品位资源利用研究.矿物学报,2011(S1):735-736
[91]王学评,韩九曦,元春华,等.我国矿业境外投资分析与思考.中国矿业,2013,22(1):26-29
[92]王玉棉,李军强.微生物浸矿的技术现状及展望.甘肃冶金,2004,26(1):36-39
[93]王真民.论矿床开采阶段矿产资源的经济评价问题.中国钼业,1998,22(06):13-16
[94]维.弗霍利斯特.西半球斑岩铜矿床地质.北京:冶金工业出版社,1982
[95]魏俊浩,刘丛强,唐红峰.辽东五龙地区燕山期侵入岩类同源岩浆演化微量元素、同位素证据与金矿成矿.地质论评,2003,49(3):265-271
[96]吴钧.中国跨国公司境外投资集成风险管理研究.学术论坛,2012,35(11):149-152,167
[97]吴熙群,杨菊,李成必,等.含多种伴生成分铜矿石选矿工艺流程研究.有色金属(选矿部分),2002(5):5-8,27
[98]向鹏成,谢英亮.浅谈矿山低品位矿利用问题.中国资源综合利用,2001(5):26-28
[99]谢英亮,向鹏成.矿山低品位矿利用的技术经济分析.中国资源综合利用,2001(12):14-17
[100]徐强,潘桂堂,王立全,等.主要类型铜矿床(体)快速定位预测.北京:地质出版社,2003
[101]杨泓清,赵鹏大,李万亨.基于REES构型的非传统矿业评价体系研究.地球科学-中国地质大学学报,2000,25(1):83-87
[102]叶加冕,蒋京名,王李管,等.采场结构参数优化的数值模拟研究.中国矿业,2010,19(3):61-65
[103]尹启华,张红华.从工艺矿物学看提高铜精矿品位的可能性及途径.铜业工程,2002(3):17-19
[104]张华.秘鲁的矿业投资环境.国土资源,2002(4):52-53
[105]张莓.中国铜资源的现今与未来.中国金属通报,2010(16):38-41
[106]张瑞恒,任巍,王殿茹.矿产资源经济论.北京:中国大地出版社,2006.4
[107]张杨,高光明,席振,等.秘鲁南部深大断裂与古新世斑岩铜矿带地质特征.南方金属,2011(2):19-22
[108]张杨.秘鲁南部Don Javier铜矿区地质特征与成矿预测研究:[硕士学位论文].中南大学,2011
[109]赵红芬,蒋玉珍.冬瓜山蛇纹岩含铜矿石选矿试验研究.有色金属(选矿部分),1999(04):3-6
[110]赵鹏大.非传统矿产资源概论.北京:地质出版社,2003
[111]中国地质矿产信息研究院.国外矿产资源.北京:地震出版社,1996
[112]周帱云.铜产业及铜价格影响因素的相关分析:[硕士学位论文].西南交通大学,2010
[113]周前祥.露天与地下联合开采工艺特点分析.煤炭科学技术,1995,23(1):33-36
[114]周秋兰,张建军.江西某铜矿床技术经济评价.地质技术经济研究,1987(06):31-36
[115]朱穗玲,吴熙群,李成必.快速浮选新工艺的研究与应用.有色金属(选矿部分),2003(6):1-5
[116]朱屯.现代铜法冶金.北京:冶金工业出版社,2002
[117]邹凯.创新的低品位资源开发技术在紫金山矿的应用.采矿技术,2011,11(6):1-3,61
[2] Carpio. M. Inventario y evaluacion de los recursos minerales de losDepartamentos de Tacna,Moquegua y areas de Arequipa y Puno. Proyecto Multinacional Andino. INGEMMET,Lima,2000.35-68
[3] Cheng Q.,Agterberg F. P., Bonham-Carter G. F. A spatial analysis method for geochemicalanomaly separation. Geochemistry Exploration,1994,51:109-130
[4] Cooke D R.,Hollings P., Walsh J L. Giant Porphyry deposits: Characteristics, distribution,and tectonic controls. Economic Geology,2005,100(5):801-818
[5] Cordani U G.,Milani E J., Thomaz Filho A.,et al. Tectonicevoluti on of South America:Brazil-31″International Geological Congress,2000.453-688
[6] Davidson J P.,Harmon R S., Womer G. The source of Central Andeanmagmas:someconsiderations,inHarmon,R.S.and Rapela,C.W.,eds.,Andean magmatism andits tectonic setting. Geological Society of America Special Paper,1993,265:233-243
[7] Emmons W H. Principles of Economic Geology. New York: McGraw-Hill,1918
[8] Force E R. Laramide alteration of Proterozoic diabase: A likelycontributor of copper toporphyry systems in the Dripping Springmountains area, southeastern Arizona. EconomicGeology,1998,93(2):171-183
[9] Griffiths J C. Mineral Resource Assessment Using the Regional Value Concept.J.Int.Assoe.Math.Geol.,1978,10(5):441-472
[10] Hollister V F.,Potter R R., Barker A L. Porphyry-type deposits of the Appalachian orogen.Economic Geologists,1974,69(5):618-630
[11] Instituto Geológico Minero Y Metalúrgico. Estudio de los Recursos Minerales delPerú,2003.12-25
[12] Janetski N. D.,Woodburn S. I., Woods R. An electrochemical investigation of pyriteflotation and depression. International Journal of Mineral Processing,1977,4(3):227-239
[13] Lowell J D. Regional characterisitics of porphyry copper deposits of the Southwest.Economic Geology,1974,69(5):601-617
[14] Mason D R. Compositional variation in ferromagnesian minerals from porphyry coppergenerating and barren intrusions of theWestern Highlands,Papua New Guinea. EconomicGeology,1978,73(5):878-890
[15] McInnes Brent I. A., Cameron Eion M. Carbonated, alkaline hybridizing melts from asub-arc environment: Mantle wedge samples from the Tabar-Lihir-Tanga-Feni arc,PapuaNew Guinea. Earth and Planetary Science Letters,1994,122(1-2):125-141
[16] Misra K C. Understanding Mineral Deposits. Dordrecht: Klawer Academic Publishers,2000.353-413
[17] Nakata Toshihiko. Energy-economic models and the environment. Progress in Energy andCombustion Science,2004,30(4):417-475
[18] Oscar Concha. Prospecting, exploration and development of CUAJONE deposit,Lima,2011
[19] Pierre Callot,Thierry Sempere, Francis Odonnen. Giant submarine collapse of a carbonateplatformat the Turonian-Coniacian transition:The Ayabacas Formation, southern Peru.Basin Research,2008,20:333-357
[20] Richards J P. Tectono-magmatic precursors for porphyry Cu-(Mo-Au) deposit formation.Economic Geology,2003,98(8):1515-1533
[21] Richards J P.,Boyce A J., Pringle M S. Geologic evolution of the Escondida area, northernChile: A model for spatial and temporal localization of porphyry Cu mineralization.Economic Geology,2001,96(2):271-305
[22] Ruben Mattos, Jose Valle. Exploration and development of TOQUEPALAdeposit,Lima,2010
[23] Sillitoe R H. Characteristics and controls of the largest porphyry copper-gold andepithermal gold deposits in the circum-Pacific region. Australian Journal of EarthSciences,1972,44(3):373-388
[24] Sillitoe R H. Porphyry Copper Systems. Economic Geology,2010,105(1):3-41
[25] Solomon M. Subduction, arc reversal, and the origin of porphyry copper-gold deposits inisland arcs. Geology,1990,18(7):630-633
[26] Southwestern Gold Corpporation. Geological Assessment of Draft Porphyry Copper SantaCatalina,1997.56-69
[27] Tatsumi Y.,Hamilton D. L., Nesbitt R. W. Chemical characteristics of fluid phase releasedfrom a subducted lithosphere and origin of arc magmas: Evidence from high-pressureexperiments and natural rocks. Journal of Volcanology and GeothermalResearch,1986,29(1-4):293-309
[28] Thierry S.,Javier J., Victor C.,et al. Sistemas transcurrentesdeescalalitosfericaenel SurdelPeru: Publicacion Especial Sgp N°5,2004.105-110
[29] Ulrich T.,Gunther D., Heinrich C A. Gold concent rations of magmatic brines and the metalbudget of porphyry copper deposits. Nature,1999,399(17):676-679
[30] William M V. Revisión de los controles tectonomagmáticos en la exploracion de pórfidosde cobre-un ejemplo de emplazamientos en terrenos jurasicos a paleocenos-sur dePerú,Lima:Desafío minerosac una empresa de consorcio minero horizonte,2012
[31] William M V. The Late Paleozoic-Early Mesozoic Chocolate Formation of southern Peru:New data and interpretations,The international symposium on andean geodynamics,extended abstracts,2005.490-492
[32] R.鲍温,A冈纳提拉卡.著,张炳烯李文达.译.铜矿地质及铜的经济评价.北京:地质出版社,1982
[33] T J奥尼尔.低品位铁矿山如何保持竞争力.矿业工程,2004,2(2):9-12
[34] В И里亚波伊,李长根,杨歧云.带有弱捕收性能的起泡剂的应用.国外金属矿选矿,2005,42(1):17-18
[35]鲍海文.特大型低品位有色矿山基地建设新模式的探索.有色金属(矿山部分),2012,64(1):63-65
[36]陈浩然.深部铜矿开采技术现状浅析.甘肃有色金属,1995(4):1-6
[37]陈宏,代淑娟,马广清.处理某高砷难选铜矿石的试验研究.有色矿冶,1999(03):37-40
[38]陈会全.大红山铜矿伴生金银综合回收技术试验研究.云南冶金,2005,34(3):24-26
[39]陈立铭.铜资源风险投资研究:[博士学位论文].吉林大学,2010
[40]陈小明.矿山总体技术方案综合评价.化工矿山技术,1998(02):36-39
[41]陈秀法,赵宏军,韩九曦,等.秘鲁的矿业管理及投资环境.中国矿业,2013,22(3):42-44,86
[42]陈远望.秘鲁的有色金属矿业.世界有色金属,2009(01):80-82
[43]董世华.冬瓜山铜矿大团扇矿床采矿工艺及其应用.金属矿山,2007,37(8):24-26
[44]杜海青.大型低品位有色金属矿山高校开发对策.黄金,2012,33(2):1-3
[45]符剑刚,钟宏,欧乐明.巯基乙酸在铜钼分离中的应用.矿冶工程,2002,22(4):36-38
[46]冈本秀征.铜堆浸的现状和将来.国外金属矿选矿,2004,41(7):4-9
[47]高合明.斑岩铜矿床研究综述.地球科学进展,1995,10(1):40-46
[48]高阳,谢英亮.矿山低品位矿利用经济分析模型与应用.金属矿山,2004(3):5-7,66
[49]高玉宝,余斌,龙涛.有色矿山低品位矿床开采技术进步与发展方向.有色金属(矿山部分),2010,62(2):4-7
[50]高志飞.露天矿用国产大型电铲、卡车的性能及经济性分析.矿业装备,2011(1):52-55
[51]郭娟,刘树臣.秘鲁矿产资源及中秘矿业合作前景.国土资源情报,2010(7):33-38
[52]郭娟,刘树臣.秘鲁矿产资源及中秘矿业合作前景.国土资源情报,2010(7):33-38
[53]侯增谦,潘小菲,杨志明,等.初论大陆环境斑岩铜矿.现代地质,2007,21(2):332-351
[54]侯增谦,莫宣学,高永丰,等.埃达克岩:斑岩铜矿的一种可能的重要含矿母岩——以西藏和智利斑岩铜矿为例.矿床地质,2003,22(1):1-12
[55]胡建国.用MOS—2和MA—1混合捕收剂浮选含金硫化铜矿.矿冶工程,2001,21(2):43-44
[56]黄建明.利用国外铜资源发展我国铜工业.世界有色金属,2000(02):32-35
[57]贾文龙,陈甲斌.低品位铁矿资源开发经济型分析.金属矿山,2009(3):1-4
[58]蒋开喜,李岚.浅谈中国铜工业现状与西部铜资源开发技术.矿冶,2002,11(z1):23-27,95
[59]金文强.秘鲁南部Cercana-Don jovier斑岩铜矿地质特征及成因探讨:[硕士学位论文].中南大学,2010
[60]李春鹏.秘鲁南部多金属矿区成矿预测与勘察分析:[硕士学位论文].中南大学,2010
[61]李建宏,申保川.斑岩铜矿的蚀变分带及成因模型.科协论坛(下半月),2011(3):106-107
[62]李晓妹,袭燕燕.秘鲁矿业特许权登记很方便.河南国土资源,2005(10):39
[63]李兴国.我国企业境外石油投资的法律风险防范机制.福建行政学院福建经济管理干部学院学报,2008(2):59-63
[64]李占金,韩现民,甘德清,等.石人沟铁矿露天转地下过渡期采场结构参数研究.矿业研究与开发,2008,28(3):1-2
[65]李长安,宋忠宝,赵东宏,等.北祁连山石居里富铜矿选矿性试验与研究.西北地质,2005,38(1):78-82
[66]梁殿印,吴建明,沈政昌,等.矿物加工设备新进展.矿冶,2002,11(z1):60-74
[67]刘红霞.中国境外投资风险及其防范研究.中央财经大学学报,2006(3):63-67
[68]刘建国,吴一微.中矿选择分级再磨浮选新工艺的研究与应用.有色金属(选矿部分),2002(2):20-21
[69]刘金平,李万亨,华建伟,等.矿产资源经济若干问题的思考.中国矿业,2008,17(5):26-28,32
[70]鲁沙诺夫著苏,张志新译.矿产资源经济评价:中国地质矿产经济研究院,1991.36-40
[71]鹿爱莉,孙志伟,马静.国内外矿产资源开发利用技术经济评价.中国矿业,2008,17(3):11-13
[72]罗廉明,黄国宝,李根,等.改进铜录山铜矿石浮选用药试验.武汉化工学院学报,2004,26(1):22-23,31
[73]罗晓玲.国内外铜矿资源分析.世界有色金属,2000(4):4-10
[74]马鸿文.藏东玉龙斑岩铜矿带花岗岩类与成矿.武汉:中国地质大学出版社,1990.1-158
[75]毛景文,张作衡,王义天.国外主要矿床类型、特点及找矿勘查.北京:地质出版社,2012
[76]孟祥金,侯增谦,李振清.西藏驱龙斑岩铜矿S、Pb同位素组成:对含矿斑岩与成矿物质来源的指示.地质学报,2006,80(4):554-560
[77]蒲志仲,钟艳阳.矿产资源商品化、价值化和资产化刍议.中南财经大学学报,1997(01):126-130
[78]芮宗瑶,侯增谦,李光明,等.俯冲、碰撞、深断裂和埃达克岩与斑岩铜矿.地质与勘探,2006,42(1):1-6
[79]芮宗瑶,张立生,陈振宇,等.斑岩铜矿的源岩或源区探讨.岩石学报,2004,20(2):229-238
[80]芮宗瑶.中国斑岩铜(钼)矿床.北京:地质出版社,1984
[81]宋国明.投资秘鲁矿业的机遇与风险.国土资源情报,2010(3):29-33
[82]宋国耀,张晓华,肖克炎,等.矿产资源潜力评价的理论和GIS技术.物探化探计算技术,1999,21(3):199-205
[83]唐业茂,曾晓文.自然崩落采矿法技术应用探讨.有色金属(矿山部分),2010,62(3):9-10,22
[84]汪青梅,邱木清.微生物浸矿技术在处理低品位铜矿中的应用现状.湿法冶金,2005,24(1):5-8
[85]王安建,王高尚,陈其慎,等.矿产资源需求理论与模型预测.地球学报,2010,31(2):137-147
[86]王安建,王高尚,张建华,等.矿产资源与国家经济发展.北京:地震出版社,2002
[87]王高尚,王安建,等.能源与国家经济发展.北京:地质出版社,2008
[88]王珩.高硫铜矿石分步优先浮选中矿再磨再选工艺流程研究及探讨.有色金属(选矿部分),2003(5):10-14
[89]王龙明,任凤玉,张永亮.大型深凹露天转井下深部开采技术研究.中国矿业,2005,14(7):57-59
[90]王同荣,方维萱.云南省东川滥泥坪铜矿低品位资源利用研究.矿物学报,2011(S1):735-736
[91]王学评,韩九曦,元春华,等.我国矿业境外投资分析与思考.中国矿业,2013,22(1):26-29
[92]王玉棉,李军强.微生物浸矿的技术现状及展望.甘肃冶金,2004,26(1):36-39
[93]王真民.论矿床开采阶段矿产资源的经济评价问题.中国钼业,1998,22(06):13-16
[94]维.弗霍利斯特.西半球斑岩铜矿床地质.北京:冶金工业出版社,1982
[95]魏俊浩,刘丛强,唐红峰.辽东五龙地区燕山期侵入岩类同源岩浆演化微量元素、同位素证据与金矿成矿.地质论评,2003,49(3):265-271
[96]吴钧.中国跨国公司境外投资集成风险管理研究.学术论坛,2012,35(11):149-152,167
[97]吴熙群,杨菊,李成必,等.含多种伴生成分铜矿石选矿工艺流程研究.有色金属(选矿部分),2002(5):5-8,27
[98]向鹏成,谢英亮.浅谈矿山低品位矿利用问题.中国资源综合利用,2001(5):26-28
[99]谢英亮,向鹏成.矿山低品位矿利用的技术经济分析.中国资源综合利用,2001(12):14-17
[100]徐强,潘桂堂,王立全,等.主要类型铜矿床(体)快速定位预测.北京:地质出版社,2003
[101]杨泓清,赵鹏大,李万亨.基于REES构型的非传统矿业评价体系研究.地球科学-中国地质大学学报,2000,25(1):83-87
[102]叶加冕,蒋京名,王李管,等.采场结构参数优化的数值模拟研究.中国矿业,2010,19(3):61-65
[103]尹启华,张红华.从工艺矿物学看提高铜精矿品位的可能性及途径.铜业工程,2002(3):17-19
[104]张华.秘鲁的矿业投资环境.国土资源,2002(4):52-53
[105]张莓.中国铜资源的现今与未来.中国金属通报,2010(16):38-41
[106]张瑞恒,任巍,王殿茹.矿产资源经济论.北京:中国大地出版社,2006.4
[107]张杨,高光明,席振,等.秘鲁南部深大断裂与古新世斑岩铜矿带地质特征.南方金属,2011(2):19-22
[108]张杨.秘鲁南部Don Javier铜矿区地质特征与成矿预测研究:[硕士学位论文].中南大学,2011
[109]赵红芬,蒋玉珍.冬瓜山蛇纹岩含铜矿石选矿试验研究.有色金属(选矿部分),1999(04):3-6
[110]赵鹏大.非传统矿产资源概论.北京:地质出版社,2003
[111]中国地质矿产信息研究院.国外矿产资源.北京:地震出版社,1996
[112]周帱云.铜产业及铜价格影响因素的相关分析:[硕士学位论文].西南交通大学,2010
[113]周前祥.露天与地下联合开采工艺特点分析.煤炭科学技术,1995,23(1):33-36
[114]周秋兰,张建军.江西某铜矿床技术经济评价.地质技术经济研究,1987(06):31-36
[115]朱穗玲,吴熙群,李成必.快速浮选新工艺的研究与应用.有色金属(选矿部分),2003(6):1-5
[116]朱屯.现代铜法冶金.北京:冶金工业出版社,2002
[117]邹凯.创新的低品位资源开发技术在紫金山矿的应用.采矿技术,2011,11(6):1-3,61