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1.
对青海省五龙沟含碳、砷、硫、锑微细粒难选冶金矿石的浮选金精矿进行二段焙烧——焙砂氰化浸出提金的试验研究,获得了金浸出率89.90%的较好指标,为该矿山浮选金精矿的提金提供了一种可选择的工艺流程。 相似文献
2.
对含砷金矿石中的金的回收以往所采用的选(冶)矿工艺流程一般是浮选-氰化浸出和浮选-焙烧-氰化浸出工艺流程。为了简化含砷金矿石选(冶)矿工艺流程,根据该矿矿石性质试验研究了单一混汞工艺流程、混汞-汞尾氰化浸出工艺流程、混汞-汞尾预处理-氰化浸出工艺流程和全泥硫脲浸出工艺流程方案,结果表明:混汞-汞尾氰化浸出工艺流程获得的指标较高,总回收率可达83%,因此,该矿适采用联合的选(冶)矿工艺流程,试验数据可以作为该矿开发和评价的依据。 相似文献
3.
由青海省地矿科技信息中心承担并完成的《难选冶金浸金》专题报告不久前在西宁通过专家评审,近期将印制并出版发行。这是青海省黄金勘查—选冶事业中取得的又一重要成果。 岩金矿石都具有某种程度的难选冶性。砷、碳、硫、锑、铜及其他许多组分,矿石的结构构造,金的粒度组成及嵌布(包裹)特征,矿区的诸种环境条件等等,直接影响着金的浸出-回收率 相似文献
4.
1983年,受河南省黄金公司的委托,测试中心承担了河南灵宝樊岔金矿选矿试验及物质组成研究。其目的主要查明矿山选厂采用混汞—浮选工艺流程金回收率不高的原因。据可选试验的要求,确定对该金矿石物质组成的研究内容有:矿石化学组成、矿石矿物组成、金矿物主要特征、金的赋存状态、金矿石工艺性质对选金的影响。通过以上内容的研究,查明了樊岔金矿中金的工艺矿物学特征,认为矿山现场采用混汞—浮选工艺流程,金回收率不高的主要原因是赋存在褐铁矿中的金随浮选尾矿流失。因此,宜采用混汞—氰化提金工艺流程。选矿试验也证明了采用混汞—氰化流程最佳,与混汞—浮选提金工艺流程相比,金的回收率可提高12.43%,此流程也容易在小选厂实现。物质组成研究的结果也证明了与选矿试验结论是一致的。 相似文献
5.
锰银氧化矿是公认的难选冶矿石类型 ,在当前经济技术条件下仍属于难以利用的矿种。采用强磁选方法优先回收银锰、磁选尾矿氰化浸银的试验流程 ,获得银回收率达到 90 %的良好效果 相似文献
6.
后窑子-火烧滩金矿床我省近些年新发现的金矿床,产于强构造变形的古元代变质深成侵入岩中的韧-脆性剪切带中。采用矿石光薄片显微镜研究、金溶解性试验、矿石标本观察研究的基础上,对矿石矿物特征及金的赋存状态进行了研究探讨。研究金的赋存状态不仅有助于阐明矿床成因,而且关系到矿床评价、勘探与选冶工艺的确定,同时也是解决选冶回收率的关键~([1,2])。 相似文献
7.
滩间山堆浸尾矿目前有三十多万吨,通过对滩间山堆浸尾矿选冶工艺流程试验研究,采用浮选—焙烧—氰化—电解的提金工艺在技术上获得了总回收率达84.84%,年创利税383.67万元的较为理想的试验指标。研究和解决这一地区金矿堆浸尾矿的工艺问题,对提高矿山经济效益,扩大青海省的黄金生产能力,促进青海西部地区的经济发展,都具有重要的现实意义。 相似文献
8.
高砷高硫银矿有害杂质含量高 ,矿物成份复杂 ,直接氰化浸出率不到 2 0 %,属难选冶银矿。采用固化焙烧—氰化提银工艺 ,银浸出率可达 95 %以上。焙烧产生的As2 O3 、SO2 能以其盐的形式固定于焙砂中 ,不造成环境污染。 相似文献
9.
青海省都兰县开荒北金矿含金石英脉型矿石,采用全泥氰化、混汞—全泥氰化,混汞—炭浸法等提金工艺,都获得较好指标。但采用混汞—炭浸法工艺,金的浸出率可提高1.61%。 相似文献
10.
广西那坡县龙合地区岩溶堆积型铝土矿,矿床规模大,矿石质量差异较大,其矿石加工选冶技术试验研究具有重要意义.通过采用较先进的技术方法对铝土矿石的选矿、抗压强度、氧化铝溶出、赤泥沉降等试验研究,认为该区铝土矿石加工选冶技术性能良好,其研究成果和工艺技术对同类型矿床矿石选冶试验研究有参考价值. 相似文献
11.
桃园金矿成因比较复杂.岩广测试和电镜扫描研究表明,金矿矿物组合可划分为金-石英-细粒黄铁矿-毒矿四,金-石英-银-多金属硫化物型;金-石英-自形黄铁广3种类型.通过对矿石的矿物组分和化学成分,以及金、银的赋存状态研究,认为桃园全矿的矿石属于金矿矿物极细,而矿物组成比较复杂的矿石类型. 相似文献
12.
Zhuojiazhuang gold deposit (ZGD) is the most enriched breccia pipe type gold deposit in East China, resulted from cryptoexplosion related to alkalinic magmatism and orebearing fluid filling. The ZGD is a small-sized mine with over 5 tons of gold reserves and grade of 156g/t in average and the highest 2 728 g/t as known. In addition, tellurium and silver are also valuable.The mineralized breccia pipe is cylinder-like in shape with 15 m long and 10 m wide and controlled by intersection ofNW and EW trend faults. Mining level has reached 170 m below the surface, but the whole pipe mineralization is still stable. Mineralization commonly occurs within the cements of breccias. Gold ores consist of hydrothermal breccia ore, shatteredbreccia ore and cataclastic ore. From the center of the ore body outwards, there is the transition from hydrothermal breccia toshattered breccia and then to cataclastic ores. According to composition and amount of the cements, the hydrothermal brecciaores can further be divided into three subtypes: sulfides cemented, hydrothermal mineral cemented and magma cemented.The content of gold is closely related to the types of the cements. The grade of the sulfide cemented breccia is the highestone, usually more than 1 000 g/t, and the known maximum grade is 2 728 g/t. The composition of the shattered breccia ismainly dioritic porphyrite and cemented by hydrothermal minerals, the grade ranges from ten to several tens g/t. The catsclastic ores are mainly composed of dioritic porphyrite, syenitic porphyry, as well as carbonate with mineralized veins, and the grade is only 35 g/t.Major ore minerals consist of pyrite, native tellurium, sphalerite, with minor calaverite, galena and altaite. Gangueminerals are composed of microcrystalline quartz, decktite and fluorite, with minor sericite and calcite. Brecciated and disseminited structures are main structures of ores. Four ore-forming stages are defined: microcrystalline quartz-pyrite stage,microcrystalline quartz-polymetal sulfides stage, quartz-adular stage and dickite stage. Wall rock alteration is characterized bysilicification, sericitization, adularization and fluoritization.The enrichment of tellurium may indicate that the ore-forming fluid was of a deep origin from upper mantle or lower crust. Mineral assemblage of microcrystalline quartz, fluorite, adularia and dickite suggest a relatively low-temperature forming condition. An extensive suite of elements, including Au, Ag, Te, Hg, Sb, As, Mo, F, Zn, and Tl, is significantly enriched in mineralized rocks. They can be geochemical indicators for exploration in the study area.Comprehensive studies show that the Zhuojiazhuang gold deposit is a type of sericite-adular gold deposit, belongs to epithermal gold deposits, or can be classified into alkali gold deposit series. 相似文献
13.
广西贵港含金银多金属硫化矿区属中温热液型矿床。根据其工艺矿物学研究特征 ,采用“优先浮选”的工艺流程 ,试验获得了满意的指标 ,金、银分别富集于砷硫精矿、铅精矿中。金、银总回收率均大于 85 %。 相似文献
14.
Vitaly A.Stepanov 《世界地质(英文版)》2004,7(2)
The Bamsk gold-ore deposit is located in the Amur region, the Far East of Russia. It is confined to the Early Cretaceous volcanic-plutonic uplift of central type, located in the Stanov folded-clumpy Pre-Cambrian system. The deposit is presented by a series of gold-bearing quartz and carbonate-quartz vein-stringer zones. They are confined to the super-intrusive zone of the Nevachansk subvolcanic intrusion of sienite-porphyric composition. The mineralization is being controlled by zone of fractures developed in the autochthone ofthe Bamsk fault. Quartz, carbonates and sericite prevail in the composition of ores. The quantity of ore minerals doesn't exceed 1%~5%. Pyrite, chalcopyrite, galena and native gold are widely spread. Sheelite, gold and silver tellurides, sulphobismuthites, acanthite, sphalerite and cinnabar are less developed. Four stages of mineralization have been distinguished. Gold-sulphide-sulphosalt ore with tellurides of gold and silver is productive for gold. The following set of elements is typomorphic for the ores of the deposit: Au, Ag, Cu, Bi,Mo, Pb and Sb (W1, Pb1, Mo) -Cu- (Ag, Bi, Sb, Mn, W1, Pb2) form the vertical series of zoning. Rocks, enclosing the mineralization are exposed to the processes of listvenitization-beresitization. The processes of gumbeization and argillization are less manifested. The age of the gold mineralization, determined by Rb-Sr method on ore-accompanying minerals, is 130.6 Ma. 相似文献
15.
胶东下潘格庄金矿床为破碎带蚀变岩型金矿,其形成与朱吴断裂的次级断裂——下夼断裂、下潘格庄断裂、上潘格断裂3条断裂带关系密切。下夼断裂带为区内主要断裂带,双山屯、棉花州、韩家夼等中小型矿床均赋存于该断裂带内。断裂围岩为二长花岗岩,蚀变带下盘见有钾化,蚀变带内见有钠长石化、绢云母化、黄铁矿化等蚀变,断裂面上见有灰色、深灰色断层泥,工程揭露断裂面沿走向较连续。下潘格庄金矿床矿物共生组合简单,矿石矿物以黄铁矿为主,次为磁铁矿,并含有少量的黄铜矿、方铅矿、闪锌矿等,矿石矿物含量大于7.00%,属高硫化物型;脉石矿物含量大于90%,主要为石英和绢云母,次为长石、方解石、绿泥石;其中黄铁矿和石英为主要载金矿物。金矿物为银金矿,以包体金和裂隙金为主赋存于其他矿物中,金颗粒以细粒金为主。矿石伴生矿物组合主要为银和硫,矿石属于易碎易选矿石。 相似文献
16.
Wei Min 《世界地质(英文版)》2001,4(1)
The gold - silver complex ore field of Qingchengzi is located in Liaohe group of Liaodong rift. The gold - silver ore bodies mainly lie in Dashiqiao group and Gaixian group, which provides ore - forming materials for the mineralization. For taking place multi - period and multi - stage magmatic activities, the ore - forming materials in the formation had had dynamothermal metamorphism for a long time and enriched and formed ore bodies after magmatism in Indo- Chinese and Yanshan epoch. The ore bodies are controlled by stratigraphic formation and stored in the interformational faults and schistosity belts. Silicalite is the most important indicator for searching them. Although the Pb - Zn and the gold - silver deposits are the same series of mineralized products, their positions are different, resulting from the differences of elements nature and mineralized conditions. The gold silver deposits belong to strata - bound and hysterogenetic mesothermal - epithermal deposit. 相似文献
17.
该文以山东招远大尹格庄金矿床中微量元素为研究对象,通过对矿床围岩、矿石等微量元素的研究,表明大尹格庄金矿围岩中微量元素以富含Bi,Au,Pb,W,Ag,Sn为特点,矿体和矿化体中元素组合为Au,Ag,As,Sb,Hg,B,Cu,Zn,Bi,Mo,Mn,Co,Ni,W。在5个成矿阶段中,第二阶段与第三阶段微量元素的富集程度较明显,表现为Au,Ag,As,Co,Bi,Cu,Pb,Zn等的富集,成矿元素可分为2个分带序列,主成矿元素为Au-Ag-Cu-Pb-Zn-Bi组合、头晕元素As-Sb-Hg组合和尾晕元素Co-Ni组合。 相似文献
18.
栖霞市虎窝顶矿区金矿床位于栖霞市金山境内,为多金属硫化物石英脉型金矿床,成因上属于中温热液裂隙充填石英脉型金矿床。矿体以条带状、透镜状为主,矿体规模中等,厚度、品位变化较大,主要矿石矿物有黄铁矿、方铅矿、闪锌矿,少量黄铜矿,矿石结构以晶粒状结构、压碎结构为主,次为填隙结构、乳浊状结构、包含结构、镶嵌结构、骸晶结构、交代残余结构等,矿石构造主要有块状、网脉状、浸染状构造,其次为角砾状构造和胶状构造。矿石类型主要为原生矿石,矿体围岩主要是新太古代栖霞超单元回龙夼单元条带状细粒含角闪黑云英云闪长岩。 相似文献
19.
辽上金矿床位于胶东新发现的胶莱盆地东北缘成矿区之内,为胶东东部首例特大型金矿。矿区金成矿以充填作用为特征,载金矿物主要为自形—半自形结构黄铁矿和白云石,以网脉状、细脉状、微细脉状黄铁矿白云石细脉形式出现于岩石碎裂隙中,或以黄铁矿白云石大脉状充填于断裂构造中。矿石包括含金黄铁矿白云石脉型和含黄铁矿白云石脉蚀变岩型2大类。通过对比认为,该矿床为一新类型,即黄铁矿白云石脉型金矿床。这一新类型特大型金矿的发现,预示着胶莱盆地边缘地区具有较好的找矿前景,尤其在金牛山地区应有可能在短期内取得更大的找矿突破。 相似文献