Table of Content

15 September 2016, Volume 45 Issue 09

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Tailings Disposal Methods and Applications at Home and Abroad

YAN Wen-Qing

2016, 45(09):  1-14. 

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As the largest amounts of industrial wastes in the world，mine tailings have great impact on environment，ecosystem，society as well as mine investment and operation.Nowadays，besides of the traditional tailing ponds，there are new techniques developed for tailings storage and disposal.In view of the current situation of tailings disposal at home and abroad，the tailings storage methods are classified from three aspects of tailings pattern，type of storage and site of disposal facility.The analysis on tailings failure cases in past decades in the world，indicated that the traditional disposal facility owns higher risk and higher rate of dam failure.Some cases that the mines utilized ways of filtered dry-storage，paste tailings disposal，submarine tailings disposal and tailing-waste mixed disposal are listed，and the feature and circumstance of tailings disposal methods and factors needed to be considered before application are introduced.The influences on application of new tailings disposal technologies are discussed，including site-specific feature，tailing equipment，environmental protection standards and economical efficiency in operation.Besides，it is indicated that there is some progress in research and application of tailing disposal methods，but still is a certain gap between China and the developed countries.Finally，it is proposed that some storage methods，including filtered tailings dry-storage，paste tailings disposal，cemented paste tailings disposal and hybrid technology，are promising for tailing treatment in China under high economic efficiency.

Research Status and Expectation of the Waste Dump in Metallurgical Mine in China

QIU Yu, XU Wen-Bin, ZHOU Yu-Xin

2016, 45(09):  15-22. 

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Waste dump，the important safety facilities of mine，has been widely studied.Aiming at the existing problems in mine dumps，such as poor stability，soft soil foundation，environmental pollution，low mechanization level，and the evaluation result not fitting with the actual in our country，the researches on the dumping process，stability，disaster prevention and control，ecological reclamation，are systematically summarized.And some solving methods are put forward，including the multi-step coverage dumping method，inverse dumping process，parameter inversion and space effect stability analysis.Therefore，some researches and development directions in the treatment of heavy metal pollution，waste-tailings mixed dumping，intelligent monitoring，stability analysis of multi field coupling technology in metallurgical mine in China are proposed.

Step Calculation Method for Multi-stage Synergistic Mining of Low-grade Large-thick Ore-body

NIU Wen-Jing, CHEN Qing-Fa, LIU Yan-Zhong, CHEN Da-Peng, YANG Jia-Cai

2016, 45(09):  23-29. 

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Multi stage mining model can effectively improve the production capacity of low-grade large thick ore-body and reduce the costs.So it is significant to research the step distance of multi-stage synergistic mining.From the view of mine engineering systems,the ideas or methods for computing the step distance of multi-stage synergistic mining were proposed.The exploited computing system was constructed to build the comprehensive fuzzy evaluation system of multi-stage synergistic mining.The hierarchical fuzzy analysis method was adopted to determine the weight value of each factor that influences the multi-stage synergistic mining.Through evaluating the multi-stage synergistic mining scheme,the scheme and its synergistic steps are determined in theory.With the copper zinc ore body in Tongkeng mine,Guangxi Huaxi Group as engineering background,the investigation on the theory and application of the synergistic mining step distance showed that the second stage mining of copper zinc ore-body collaborating with the upper stage ahead two steps distance from the lower stage is the optimal.Research results provided technical guidance for the multi-stage synergistic mining of low-grade large thick ore-body.

Optimization of Mining Scheme on the Partitioning Collaborative Mining of a Vanadium and Iron Mine

SUN Hui-Xi, WU Ai-Xiang, ZHANG Lei, WANG Jian-Dong, WANG Lei-Ming

2016, 45(09):  30-34. 

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Due to the problems of a vanadium and iron mine such as unclear resource mining plan，mutual restriction of mining，serious ore backlog and goaf affecting mine safety production，the collaborative optimization mining scheme is proposed.The mining area is divided in to eastern area (7#~10# prospecting line),central area (10#~15# prospecting line) and western area (15#~21# prospecting line ),different mining methods are used for partitioning design and partitioning mining.Compared to the original mining scheme,the reserves is increased by 10.674 million t and amount of ores is improved 20%,the ore recovery of the eastern area is increased by 9％,the ore recovery of the central area is increased by 21%,the ore recovery of the western area is increased by 14%,the mineral resources of the mine is used fully,the economic efficiency is improved significantly.Besides that,the goaf hazard is eliminated,the mining safety condition of the vanadium ore upper the iron ore are improved,the safety production conditions of the vanadium and iron mine is guaranteed,the the collaborative optimization mining scheme proposed in the paper can provide reference for the similar mine.

Application of Full Shrinkage Stoping in Inclined Medium Thickness Ore-body

YAN Xiang-Bo, WANG Yi-Ming, XU Heng, WU Ai-Xiang, ZHAO Chang-Zheng

2016, 45(09):  35-39. 

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Due to the damage of the fault，a copper ore body in southern China becomes the ore block.With the ore body dip angle decrease，the ore-draw under gravity can not be achieved by the shrinkage method.At the same time，ore hanging arch in the field increases the operation risk and the ore loss.To solve this problem，a new scheme of full shrinkage method is put forward based on the shrinkage method.The new scheme integrated characteristics of the shrinkage method and overall mining method-the stope structure，mining layout of the shrinkage method and handling method，ground control of the overall mining method，which overcomes the shortcomings of the shrinkage method that does not ore-drawing under gravity，so as to solve the technical problems of ore drawing.The production results showed that the new scheme makes the mine production capacity increased by 14.3%，the development and cutting engineering reduced by 40.8%，ore loss rate reduced by 25% and ore dilution rate reduced by 16.7%.Further，it realizes the mining of high efficiency and ensures the safety of mining operations.It can provide as a reference for other similar mines.

Effect on Stability of Underground Mining of Old Open-pit and Seepage Field of Hongqi Iron Mine

FAN Qing

2016, 45(09):  40-43. 

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Taking the Hongqi Iron Mine in Guichi district in Guizhou province as a case，the rock mass quality classification is determined by adopting the filed investigation，sampling and testing method，the strength reduction is done by using the relevant methods to conduct the stability calculation，combined with the actual situation of the iron mine，the mine status seepage filed analysis is done，based on the above analysis results，the mining area status stability is calculated by adopting the finite element method，besides that，the influence of the open mining pit to underground mining area are conducted stability analysis and evaluation.According to the established analysis calculation model，the stability of the later mining of the iron mine is analyzed and predicted，the corresponding control measured of the mining security risks of the iron mine are proposed.

Influence Rules of Sodium Sulfide to Condensing Properties of the Paste in a Lead-zine Mine

ZHANG Lei, WANG Hong-Jiang, WU Ai-Xiang, ZHANG Jun-Fei, GAO Wei-Hong, WANG Lei-Ming

2016, 45(09):  44-48. 

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The hydration condensation of unclassified-tailings paste filling slurry of a lead-zine mine is slow,which seriously affect the process of filling operation,the aggregate sinking phenomenon of the aggregate filling slurry is prone to exist,which lead to the slurry segregation phenomenon is appeared,so,the quality of filling slurry is affected seriously.The mechanical model of paste in filling slurry is established to analyze the influence of sodium sulfide to hydration condensing properties of the paste in a lead-zine mine.The zinc nitrate is mixed with unclassified-tailings paste filling mixture slurry with different proportion,the test result show that the slurry condensation is slowed by zinc ions in unclassified-tailings.Based on the above analysis results,the sodium sulfide with different proportion is mixed with the mixture slurry to obtain the new paste slurry,the test results show that the coagulation effects of sodium sulfide to paste slurry is existed,with the increasing of additive amounts of sodium sulfide,the initial condensation time of paste slurry with the linear decreasing regularity approximately,with the addition of sodium sulfide,the strength of the paste test blocks with condensation 7,14,28 d,the ideal additive amounts of sodium sulfide of the corresponding maximum strength of the paste block is 1%～1.5%.The above test results further show that the zinc sulfide sediment is formed by combing with sulfur ions and zinc ions of paste slurry,the hydration and condensation process of paste slurry are promoted by alkaline slurry environment formed by sulfur ions hydrolysis.

Space Shape Optimization of the Soil-rock Composite Reverse Dip Slope in Open-pit Mine

CAO Lan-Zhu, LI Guang-He, WANG Dong

2016, 45(09):  49-52. 

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In view of the shape design of the boundary slope of the soil-rock composite reverse dip slope in the open-pit mine，the landslide model and stability of soil rock composite reverse dip slope in Dalianhe Open-pit Coal Mine is studied by adopting the method of rigid body limit equilibrium and three-dimensional numerical simulation.The study is based on the engineering practice of the compound reverse dip slope of the north slope of outer dump and the top slope of the stope in Dalianhe open-pit coal mine，by which the safety of the mining of coal resources of the north to boundary slope is guaranteed.The study results show that for the compound reverse dip slope of the north slope of outer dump and the top slope of the stope in Dalianhe open-pit coal mine，the landslide model is circular sliding；in order to meet the safety requirements，the mining slope angle should be up to 33°；the failure form of rock mass is the composition of tension and shear.At the foot of slope，local rock mass destruction should be done due to the stress concentration caused by the rock mass weight and it is the inducing factor of the whole slope failure.

Study on Stability of the Slope with Fault in Gongchangling Open-pit Mine

DENG Peng-Hong, WANG Hai-Long, ZHANG De-Hui

2016, 45(09):  53-57. 

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There are many faults in the north of Dumu mining area of Gongchangling Open-pit mine.In order to determine the influence range of fault and the influence of slope stability and slip mode，6 kinds of working conditions are divided to research according to the difference of fault location：In initial position，fault is moved to the inside of the slope of 30 m，60 m，90 m，120 m and there is no fault.FLAC and Geo-Slope software are used to simulate the 6 kinds of working conditions.By comparing the maximum shear strain，horizontal displacement，vertical slice and slope safety factor，the influence of fault location on the stability of the slope are analyzed.Results show：When the fault is less than 100 m to the slope，the slip mode of the slope is the plane-shear arc sliding mode with the fault as the lateral boundary，and the slope stability is poor；When the fault is more than 130 m to the slope，the slip mode of the slope is no longer affected by faults，the potential slip surface is single shear arc，and the slope stability is better.The research results has a great reference value to the mining plan and the slope design of the mine.

Mechanics Analysis and Construction Process of Light-weight Retaining Wall for Backfill

CHENG Hai-Yong, WU Ai-Xiang, LUO Gan-Hua, WANG Yi-Ming

2016, 45(09):  58-61. 

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There is a complex interaction mechanism between filling slurry and retaining，and the stability of filling retaining wall has a direct influence on mining and filling cycle and mining safety.According to the theory of hydrostatic pressures，the mechanical analysis of the two kinds of slurry height which one was higher than filling retaining wall and the other was lower than retaining wall was carried out.In addition，its maximum torque point was calculated.The construction techniques of the retaining wall，including position selection，wire rope fastening and hanging net，wood board installation and nylon cloth laying process were described in detail.Theoretical analysis and field application showed that the stress concentration of the retaining wall was expressed in the height range of 2 m and the bottom can be properly reinforced.The production cycle of light retaining wall was short，greatly reducing cycle time of mining and backfilling and providing a reliable guarantee for safe mining.

Technology of Controlling Roof Falling Hazard about Synchronous Caving in Upper and Lower Mining Areas

LI Nan, CHANG Shuai, REN Feng-Yu

2016, 45(09):  62-65. 

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Controlling roof falling hazard was the key safety technique of synchronous mining in upper and lower mining areas.Taking Xiaowanggou iron mine that was divided into three areas in ore-body extending direction for example,and based on theoretical analysis,the main types of roof falling hazards were shown in three mining areas,falling rocks and collapse for upper mining area,airblast wave and falling rocks for middle mining area,and falling rocks for lower mining area.Meanwhile,according to the location feature of three mining areas and the orebody condition,mining sequence was adjusted for controlling roof falling forms by continuous mining area.And,to avoid from the disasters of the air-blast wave,falling rocks,collapse,a series of technical measures were proposed,including keeping 5m safe distance between working site and the falling edge,and setting 6m thick granular medium as isolation cushion,non worker allowed to entering the mined out area,and piling rocks on surface to forbid worker entering subsidence area.These measures were applicable for the safe mining under different caving conditions,and had good application.It provides technical support for synchronous caving in upper and lower mining areas.

Simulation and Optimization of Deep Stope Mining Sequence in Hongtoushan Copper Mine

CHENG Chong-Qiang, DONG Long-Bin, XU Shi-Da

2016, 45(09):  66-68. 

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For the deep stope in a high-stress environment of Hongtoushan Copper Mine，the rational mining sequence is discussed to ensure the stope stability during mining process by numerical simulation.Based on actual production conditions in the mine，six kinds of mining schemes are proposed，and FLAC3D is used to analyze the stress and displacement distribution at different mining schemes.The results show that：Scheme 6 is in the most favorable stress environment with maximum security，and the pillar obviously plays a role in releasing the stress concentration of roof.The roof and the wall are the most concentrated area of stress.The vertical displacement of scheme 2 in mining process is the minimum.However，six schemes have a closer final displacement state.Taking comprehensive consideration，the scheme 6 is the optimal mining sequence.

Numerical Simulation on the Ratio of Backfilling Design for Lower Coal Seam Backfilling Mining

WANG Bing, GUO Guang-Li, LI Huai-Zhan, GUO Qing-Biao

2016, 45(09):  69-72. 

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The filling effect of lower coal seam directly affects the surface movement and deformation in the multi-coal seam mining.The higher ratio of backfilling is,the more obviously the effect of surface subsidence decreases,but the higher the mining cost becomes.In view of this contradiction，and based on the FLAC3D numerical simulation software,the change law of the surface movement and deformation were studied systematically for different size of ratio of backfilling.The experimental results showed that：①With the increase of ratio of backfilling,The value of surface movement and deformation is decreasing in negative exponent function,and no longer changes until it reaches a certain value.②When the ratio of backfilling is 80%,the maximum surface subsidence value is 750 mm，the maximum slope deformation value is 1.5 mm/m，the maximum horizontal displacement deformation value is 1.4 mm/m，and all of them conform to the requirements of the regulations.Then,the safety of ground buildings(structures) can be ensured,and also the optimal economic benefits is achieved.The research results have important theoretical and practical significance for guiding backfilling mining of lower coal seam.

Dynamic Cut-off Grade Optimization in Shaxi Copper Mine

JIANG Cheng-Rong, PENG Ping-An, WANG Li-Guan

2016, 45(09):  73-77. 

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Cut-off grade is an especially important decision-making parameter for mines.As grade indicators were developed in the planned economy era in China，current mining industry index cannot adapt to the development with the improvement of China′s market economy.Shaxi Copper Mine is a deep-buried，large-reserve and low grade mine.One of the great issues on how to make exploitation economic is the cut-off grade.In view of this，the mineralized domains with a copper grade of 0.1% are delineated for the boundary，then.geo-statistics are made to get the mineralized domain models to achieve average grade and grade of the ore reserves.The cutoff grade dynamic optimization mathematical model and algorithm are proposed by maximizing the net present value.Finally，the method above optimized the cut-off grade of Shaxi Copper Mine.Comparing with the results for the preliminary design，the mine life，recycled metal，total cash flow，total net present value have been significantly improved by this method.It also provides a reference for exploitation of large-reserve，low grade underground deposits in China.

Research of Stress Field Evolution in the Exploitation Process of the Reserved Hanging Pillars

ZHANG Xiong-Tian

2016, 45(09):  78-82. 

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For the characteristics of slowly-inclined，broken，medium thickness ore-body，the sublevel room-pillar mining method is put forwards to exploit the mineral resources.In the test stope，the surrounding rock has a better stability，but the hanging wall boundary of the ore body lies in broken alteration zone with broken rocks.The surface water in the mine is developed well，and there is s aquifer layer at hanging wall of the surrounding rock.The caving of the surrounding rock produces a great impact on the ore dilution and the safety mining.The hanging pillars are reserved to slow down the surrounding rock caving.The FLAC3D is used to make numerical analysis on the stope stress migration，displacement and the destruction rule per unit.The results showed that the reserved 2 m pillars are beneficial to maintain the stability of the hanging wall，control the extending of plastic zone，so as to lower the ore dilution and achieve the safe mining.

Influence of Dispersion-flocculation on Micro-fine Magnetite Low Intensity Magnetic Separation

SU Tao, CHEN Tie-Jun, ZHANG Yi-Min, HU Pei-Wei, FENG Yang

2016, 45(09):  83-87. 

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The beneficiation index of conventional low intensity magnetic separation is poor in treating a micro-fine disseminated and low grade magnetite ore from Gansu. To improve beneficiation effect and increase separation index，dispersion-selective flocculation conditions research before low intensity magnetic separation was studied，and the dispersion-flocculation effect were determined with laser particle size analyzer. The results showed that：iron concentrate with iron grade of 62.82%，iron recovery of 79.12% was ultimately obtained with first stage grinding fineness of -74 μm accounted for 90.43%，second stage grinding fineness of -30 μm accounted for 93.45%，low intensity magnetic separation one with sodium hexametaphosphate as dispersion of 500 g/t，carboxymethyl starch(CMS) as flocculation of 750 g/t，pulp pH of 11，via grinding 1-low intensity magnetic rough separation-grinding 2- two times low intensity magnetic cleaning separation process，the grade and recovery of iron concentrate increased by 1.28 and 5.08 percentage points compared with the conventional low intensity magnetic concentrate. Dispersion-flocculation mechanism analysis showed that：little absolute value of surface charge compared with quartz makes Polymer CMS adsorbed on the surface of magnetite by hydrogen bond in dispersion condition，which lead to increased particle size of fine magnetite ore，improve the magnetic separation effect and the beneficiation indexes.

Beneficiation on High Mud and High Oxidation Copper Ore From Congo (Kinshasa)

WEI Zhuan-Hua

2016, 45(09):  88-91. 

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A high mud and high oxidation copper ore form Congo(Kinshasa) with copper grade of 3.70%，and the oxidation rate reach 75.81%.Copper mainly exists in the form of malachite，follows by chrysocolla and chalcocite.The technical conditions for flotation of the ore are explored．The results show that with the grinding fineness of 70% -74 μm，via one stage flotation for desliming，two roughing，two cleanings，and two scavenging sulfuration floatation，copper concentrate with copper grade of 26.82% and recovery of 72.48% was gained.The flotation tailings with which the main copper minerals is chrysocolla can be processed by acid leaching process．With sulfuric acid dosage of 100 kg/t，liquid-solid ratio of 3∶1 and leaching time of 1.5 h，the copper leaching rate of 86.84% is obtained relative to tailings，and the total copper recovery of the whole process of flotation+ acid leaching is 96.38%．

Hydro-pretreatment Sulfuric-acid-leaching on a Foreign Copper Oxide Ore

DI Xu-Dong, LI Jie, WANG Zhong-Yang, XIANG Hong

2016, 45(09):  92-95. 

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Main copper minerals in a foreign copper oxide are pseudo-malachite，chalcosiderite and hentschelite，with Cu grade of 2.07%，oxidation rate of 82.86%，binding rate of 51.91%. Hydro-pretreatment with K1- sulfuric acid leaching process was conducted to high effectively recovery copper from the ore. The results showed that，grinding fineness of pretreated stage is 60% -74 μm，with pulp density of 35%，K1 concentration of 9% at 85 ℃ for 1 h，pulp concentration of sulfuric acid was 25%，sulfuric acid concentration of 13.8% at 50 ℃ for 3 h，the corresponding copper leaching rate is 87.44%.

Copper Selection Experimental on a Copper-gold Sulphide Ore in Balai County, Lao People′s Democratic Republic

DAN Zhi-Qiang, XIA Yu, ZHANG Xin-Hai

2016, 45(09):  96-99. 

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The main useful elements are copper and gold of copper gold sulphide ore from Balai County，Lao People′s Democratic Republic.The main copper minerals chalcopyrite and bornite are closely associated symbiosis，crystallization is irregular，the thickness even and grain sizes finer.Pyrite grains are regular，but thickness uneven.Copper sulfide minerals disseminated relatively correlation.Gold mainly exists nakedly or half-nakedly，followed by pattern of gold enwrapped by chalcopyrite.To find the copper selection process，dressing experiment was conducted.The results show that under the condition of grinding fineness -0.074 mm accounting for 70%，lime +YD as sulfur depressor，butyl xanthate as copper collector，via one roughing-two cleaning-two scavenging closed circuit copper flotation process，copper-gold concentrate with 25.08% Cu and 26.00 g/t Ag，copper recovery of 90.78%，gold recovery of 74.12% was obtained.

Flotation Experiment on Micro-fine Disseminated Copper Ore from Kamoa，Congo (Kinshasa)

LU Jun

2016, 45(09):  100-102. 

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Aiming at characteristics of complex dissemination and uneven particles size dissemination of copper minerals from Kamoa，Democratic Republic of Congo，beneficiation experiment was conducted by stage grinding stage separation process.With lime as a pH regulator，Cytec Aero 3894 + Cytec Aero 5100(mass ratio of 2∶1) as combined collector，and Cytec F507 as foamer，at grinding fineness of 85% passing 0.053 mm，through one roughing and two flash-cleaning，scavenging rough concentrate，flash-cleaning tailings and the +0.053 mm coarse fraction of scavenging tailings combined and then regrinding to fineness of 80% passing 0.01 mm，through two scavenger-cleaning process，then a combined concentrate of flash-cleaning and scavenger-cleaning with 48.57% Cu and recovery of 88.34% was obtained.

Pre-concentration Test of a Refractory Rubidium Ore

SHAO Wei-Hua, CAO Yao-Hua, LIU Guang-Xue, WANG Shou-Jing

2016, 45(09):  103-106. 

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There are 100 thousand ton deposits resources distributed in our country in Western China. Rubidium mainly occurred in potassium feldspar and zinnwaldite in a decentralized state. The main gangue minerals are sodium feldspar and quartz. According to zinnwaldite has low intensity magnetism,and there are large floatability difference between feldspar and quartz,preconcentration experiment by combined flowsheet of magnetic separation and flotation,enrichment of zinnwaldite containing rubidium by high intensity magnetic separation and enrichment of potassium feldspar containing rubidium mineral by flotation. The results showed that raw ore with Rb2O grade of 0.13% ground to 65% passing 0.074 mm,using PL as strong depressor of quartz and other silicate minerals,EZ and laurylamine as combined collector of feldspar minerals,rubidium concentrate with Rb2O grade of 0.39% and recovery of 69.91% was obtained through one high intensity magnetic separation,one roughing,two cleaning,one scavenging flotation process.

Phosphorus Removal from Vanadium-containing Acid Leaching Solution by Capacitive Deionization Technology

ZHOU Jia-Yu, ZHANG Yi-Min, BAO Shen-Xu, DUAN Ji-Hua

2016, 45(09):  107-111. 

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There are mass of phosphorus in stone coal acid leaching solution which will affect the subsequent vanadium extraction process and the purity of V₂O₅，which could make the product unqualified.Research on phosphorus removal from acid leaching solution by an environmentally friendly desalination technology-capacitive deionization (CDI) was uconducted.The effect of operational parameters on the phosphorus removal and the adsorption mechanism of phosphorus were investigated.The results show that 63.28% phosphorus and only 1.30% vanadium could be removed under the optimum conditions of 2.0 V charging voltage，flow rate of 25 mL/min，pH of 0.75 and the distance between polar plates of 9 mm.CDI has good separation performance of phosphorus from the stone coal acid leaching solution.The calculation by Medusa software and the FTIR analysis showed the phosphorus in stone coal acid leaching solution was adsorbed by electrode in forms of H₂PO^-₄ and PO^3-₄.Meanwhile，the adsorption process included both physical adsorption and chemical adsorption.

N235+TBP Preextraction of Zr from Wolframine Residue Containing Sc

DING Chong, LIU Xiu, WANG Xiao-Hui, DAN Zhi-Qiang, ZHANG Xin-Hai, HE Chao-Ran

2016, 45(09):  112-116. 

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The content of Sc and Zr is 48.18 mg/L and 138.00 mg /L respectively in sulfuric acid leaching solution(sulfuric acid concentration 1.8 mol/L) of some wolframine slag from Hunan.To eliminate the effect of Zr on Sc extraction,zirconium pre removal experiment using N235 and TBP as composite extracting agent was conducted before scandium extraction.Results show that：①Under the condition of volume ratio of N235，TBP and sulfonated kerosene is 15∶15∶70 in the composite extracting agent，ratio of organic phase to water phase 1.5∶1，extraction time 5 min，extraction temperature 25 ℃，extraction oscillation frequency 120 r/min，single stage extraction was conducted and extraction rates of Zr and Sc were 92.03% and 0.96% respectively.Under the condition of sulfuric acid solution concentration 5 mol/L，the ratio of organic phase to water phase of extraction 3∶1，reverse extraction time 30 min，reverse extraction temperature 25 ℃，oscillation frequency 180 r/min，three-levels reverse extraction was conducted and extraction rates of Zr and Sc were 99.23% and 98.22% respectively.Therefore，the process can efficiently separate zirconium and scandium.②Extraction rate of Zr can reach to 91.97% by regenerative extractant whose effect is close to the new extractant，which illustrates regenerative extractant can be recycled.

Culture Characteristics of Acidithiobacillus Ferrooxidans APY and Its Adsorption on Pyrite Surface

YU Shui-Jing, PENG Tao, CHENG Su, CHEN Jiang-An, QIU Ting-Sheng

2016, 45(09):  117-121. 

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To select the Acidithiobacillus ferrooxidans and explore its adsorption performance on pyrite surface，the strain APY was separated from a acid pit drainage of Ganzhou，Jiangxi.The morphology，growth characteristics and 16S rDNA sequences of the strain were analyzed.Furthermore，the adsorption characteristics of the strain on pyrite surface were explored.The result indicated that，the strain APY was in the same branch of the phylogenetic tree with A.ferrooxidans strain (Acidithiobacillus ferrooxidans CK and BGL-2)，with coverage degree and similarity degree more than 98%.So the strain APY was identified as A.ferrooxidans.The optimum growth conditions of APY strain were as follows:①The volume ratio of bacteria seed liquid to culture medium was 10%; ②initial liquid medium pH was 2.0; ③rotational speed of air bath shaker was 180 r/min; ④the culture temperature was 30 ℃.Among them，pH is the limiting factor for the growth of APY strain.The strain APY adsorbed on the surface of the pyrite was a rapid process，and the adsorption number on surface of the pyrite were of up to 1.5×108 cell/mL when the pH was 2.0.

Process Mineralogy Research of Tungsten-molybdenum Ore in Henan

ZHAO Hai-Bo, HUANG Jun-Wei, MA Chi, GUO Zhen-Xu

2016, 45(09):  122-126. 

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In order to provide theoretical basis to optimize the beneficiation process of a tungsten- molybdenum ore from Henan,the process mineralogy research of the representative ore sample was made by microscope,Mineral Liberation Analyser(MLA),X-ray diffraction analysis and electron microprobe.The results showed that:①Mo content was 0.09% and the WO3 content was 0.13%,the recyclable metal minerals were scheelite,molybdenite and molybdenum scheelite.②The existence form of tungsten and molybdenum in the ore were scheelite,molybdenite and molybdenum scheelite,molybdenum sulfide ore could be recovered by flotation process; the tungsten and molybdenum oxide could only get a tungsten-molybdenum mixed concentrate.③The dissemination size of molybdenite was more coarse than scheelite,so the liberation degree of molybdenite was relatively with the same grinding fineness.④The molybdenum tungsten beneficiation index could be affected by the slimed minerals as chlorite,tremolite,calcite and sulfide mineral as pyrite.

Research Progress of Mineral Processing Technology of Low Grade Copper Oxide Ore

WANG Long, NIU Fu-Sheng, ZHANG Jin-Xia, NIE Yi-Miao

2016, 45(09):  127-131. 

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The storage of low-grade copper oxide ore in our country is great，but the easy-processing and high-grade copper ore resources are relatively poor.In order to solve the problem of copper oxide ore resources self-sufficiency，enhance the beneficiation and metallurgy research of low grade copper oxide resources is really essential.In order to let the mineral processing workers fully understand the current development and utilization situation of low-grade copper oxide ore resources，promoting the progress of low-grade copper resources beneficiation and metallurgy technology，research situation and progress of low-grade copper oxide ore beneficiation technology was introduced mainly from conventional leaching，bacterial leaching，dressing-metallurgy combination technology.In addition，conventional leaching，bacterial leaching and dressing-metallurgy combination technology are important methods for resolving the low-grade refractory copper oxide ore resources development and utilization.

Current Situation and Outlook on Indium Enrichment and Separation Technology

YAO Yan-Qing, LIU Si-Qing, DONG Xu, LIU Hai-Lin

2016, 45(09):  132-136. 

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Indium is a kind of scare metal with unique physical and chemical properties.First，current situation of research and application on traditional enrichment and separation technology for indium，such as substitution，precipitation，solvent extraction are introduced.In the meanwhile，current situation of research and application on new enrichment and separation technology for indium such as liquid film separation，levextrel method，chelating resins，solvent microcapsule separation，flotation and nanotechnology are reviewed too.On the basis of analysis on above new technologies，the advantages and disadvantages of each technology were pointed out with corresponding suggestions.Finally，suggestions and the outlook of indium enrichment and separation technology are given.

Multiple Geophysical Prospecting Model and Metallogenic Prediction of Banbidain Mining Area in Zhaoping Gold Belt

MENG Yin-Sheng, ZHANG Rui-Zhong

2016, 45(09):  137-143. 

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The Zhaoping gold belt is an important gold metallogenic belt in Jiaodong gold district in China.The gold belt has proven gold reserves more than 1 000 t along and near the fault zone with length of hundred kilometers in Zhaoping gold belt.The deep area under the coverage in the middle-south section of the gold belt is the core area for further prospecting.However，the mineralization information under the cover layer is difficult to obtain，so it is necessary to improve the efficiency of regional prospecting for the deep ore-bodies to achieve the prospecting breakthrough.The different-level ore-controlling factors in the gold belt are analyzed,the physical properties of the ore-controlling factors are conducted comparison analysis from the aspects of ore-controlling fault structure,ore-bearing altered granite and mineralized bodies.The comprehensive geophysical anomalies of the ore-controlling factors are clarified,the corresponding relationship between the ore-bodies,ore-controlling factors and geophysical anomalies are defined.The integration geophysical exploration model of the deep ore-bodies under coverage area in Zhaoping gold belt is established.Based on the above analysis results,a deep metallogenic target area is positioned and predicted,besides that,the drilling verification is also conducted.The study results show that the integrated geophysical prospecting model of the deep area of the altered rock type gold deposit is good for solving the deep prospecting problems under the coverage area of the gold belt,besides that,it also contribute to improving the deep prospecting efficiency under the coverage area of the gold belt.

Metallogenic Geological Condition and Integrated Prospecting Model of the Cu-Pb-Zn Deposit in the East Valley Water-Wainao Area

PEI Zhong-Chao, CUI Lai-Yun, REN Jian-De, FANG Huai-Bin, HUANG Di, BAI Guo-Dian

2016, 45(09):  144-150. 

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The Cu-Pb-Zn deposit in East Valley Water-Wainao area in Henan province is located in the south of Taihang mountain metallogenic Fe-Cu-Pb-Zn polymetallic metallogenic belt,the regional geological background,geophysical and geochemical of the area,geological characteristics of the mining area,geophysical and geochemical characteristics of the mining area are analyzed,the results show that:①the ore-bodies are controlled by the NNE and NWW-trending faults,bedding fracture zone of the layers and karst palaeokarst,the Pb ore-bodies in karst palaeokarst are distributed with the shapes of layered,lenticular and pod,the Pb ore-bodies in steep dip NEE-trending fault are distributed with the shapes of vein,lenticular and cystic;②the ore-bearing rock series of the Cu-Pb-Zn mining area in East Valley Water-Wainao area are Cambrian carbonate rocks or algal reef carbonate rocks,marine evaporitic rocks and hydrocarbon-bearing formation,the deposits are controlled by formation and structure;③the ores is mainly for the breccia and block ores,the vein and disseminated galena ores are only be seen in the barite vein in fault zone,the ore types are mainly for breccia,block and barite lead ores;④ mineralization and magmatic rocks in the mining area have no direct link,the local high geothermal gradient field of the same metallogenic period maybe not existed in the close region of Cu-Pb-Zn deposit;⑤the metallogenic geological background and metallogenic geological characteristics of the Pb deposit of the mining area are similar the ones of Mississippi valley type (MVT) deposit.The metallogenic regularities are discussed,the prospecting indicators of the mining area are summarized,the integrated prospecting model of the mining area is established,besides that,five prospecting target ares are delineated.The above analysis results have some reference for the Cu-Pb-Zn prospecting work in the mining area.

Regularities of Surface Dynamic Movement and Deformation Induced by Mining in Mountainous Area

LIAN Xu-Gang, HU Hai-Feng, GUO Bo-Ting

2016, 45(09):  151-156. 

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There are about one third of the coal mines under the conditions of mountainous terrain in our country,the surface dynamic movement and deformation induced by the underground mining in mountainous terrain are quite different with the surface dynamic movement and deformation in the plain area.In order to analyze the temporal and spatial characteristics of the surface movement and deformation induced by the mining under the conditions of mountainous terrain,and reveal the regularities of surface dynamic movement and deformation,firstly,the mining influence function of slip in mountain area is obtained by analyzing the characteristics of surface movement and deformation in mountainous area,the prediction model of surface movement and deformation in mountainous area is established based on the factors of mountainous terrain and plain by using the principle of superposition;secondly,based on the Knothe time function,the prediction formula of surface dynamic movement and deformation in mountainous area is derived;finally,the surface dynamic movement and deformation regularities of the two models of the positive slope and back slope are analyzed in detail.The prediction model of the surface dynamic movement and deformation in mountainous area is verified by adopting the measured data of a mine in Shangxi province,the ideal results are obtained.The study results show that the analysis results of characteristics regularities of surface dynamic movement and deformation induced by mining in mountainous area can provide the technical basis for the protection of surface buildings from the surface dynamic movement and deformation induced by mining in mountainous area.

MapGIS Method of Mining Subsidence Prediction of Dahongshan Mining Area

LIU De-Yuan, SUN Xin-Hua, HE Sheng-Dong, ZHANG Zhuo-Ran

2016, 45(09):  157-160. 

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In order to prediction the surface subsidence and deformation information caused by mining,taking the Dahongshan iron mine as the research example,based on site engineering geological exploration and collection of the deformation monitoring data,firstly,according to the drilling data in mining area (drilling depth,drilling hole height,depth of ground water level,stratum lithology,stratum structure and thickness and stratum age),the basic geological database is established;then,the mining subsidence influence factors are analyzed from the aspects of terrain slope,geological structure,lithology conditions,vegetation coverage,mining area and depth,they are assigned weighted values respectively;thirdly,the damaged level of the surface buildings in the mining area is divided into four levels based on the horizontal,vertical and curvature deformation values in the mining area;finally,according to the basic geological data,the mining subsidence prediction model is established by adopting MapGIS software,the dangerous regions of mining subsidence are divided in the mining area.The research results show that:①the weighted value of mining area and depth is 0.45,it is indicated that mining area and depth is the most important influence factors of the mining area;②the maximum surface subsidence value of 2# ore-body is 431.1 mm,the maximum horizontal movement value of 2# ore-body is 125 mm,the maximum tilt value of 2# ore-body is 4.95 mm,the prediction results are consistent with the actual measured data in the mining area;③the surface subsidence dangerous level of the 2# ore-body is Ⅳ,the building structure may be damaged in the region,therefore,it is necessary to take preventive measures timely.

Improved Biogeography Optimization Algorithm Method for Open-pit Hauling Dispatching

WANG Tao, JIANG Song, LU Cai-Wu

2016, 45(09):  161-164. 

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The optimization of production and hauling dispatching in open-pit mine features as typical multivariate and nonlinearity.First of all，based on analysis on the optimization of the open-pit truck dispatching，with the minimum total transportation cost as the objective function，the quantity of ore and transport capacity as constraints，the transport dispatching optimization model was established，and then it was put forward that the local search function within differential algorithm was introduced into the improved biogeography-based optimization algorithm with migration strategy.Finally，with MATLAB software as a platform，and the actual production and transportation data in open-pit mine as the basis，the comprehensive transportation cost calculated from the improved biogeography algorithm save 59.94 million yuan than the actual costs.Moreover，the algorithm can lower the transport costs compared with the single biogeography and the differential algorithm，which verifies its superiority for solving transportation dispatching problem in open-pit mine.

Design and Implementation of 3D Simulation Platform for Mine Safety

ZHANG Yuan-Sheng, ZHANG Xuan, LIU Guan-Zhou

2016, 45(09):  165-169. 

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In order to resolve problems existing in mine safety monitoring system，such as decentralized structure，isolated data and lack of unified management platform，an architecture of 3D simulation platform constructed by VRGIS has been designed，and three core technology solutions about multi-source data fusion，3D simulating engine，and real-time working condition simulation have been analyzed.Finally a 3D supervision and simulation platform for mine production process has been developed.Experiments show that the platform can realize the real-time and dynamic supervision of mine production environment，running state of the equipment and production process.Meanwhile，it could simulate the evolution of mine disaster and the rescuing process，also can carry on emergency drilling and safety education and training.The platform provides an effective digital platform for the mine safety supervision.

Research Status of Automatic Control Strategy for Grinding-classification System

GAN Ze, ZHAO Li-Bing, ZHAO Liu-Cheng, LIU Li-Wei

2016, 45(09):  170-173. 

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Grinding-classification operation is one of the most important link of production technology process for mineral processing plant.Realization of automatic control is crucial for energy saving，consumption reducing and benefit increasing.Control strategy of grinding-classification is the core of automatic control system.It is gradually developed from traditional control strategy to modern control strategy and intelligent control strategy.It is more and more suitable for grinding-classification control which has the characteristics of multivariate，nonlinear，large lag，time-varying.Its development tendency will be the compound control strategy combined by several intelligent control method or mechanism.

Research on the Control Technology of Air Leakage in Ventilation System of Fushan Gold Mine

ZHOU Wei, HU Shou-Quan, WANG Lin-Hong, WU Leng-Jun, JIA Min-Tao, HUANG Shou-Yuan

2016, 45(09):  174-178. 

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The underground mining fields of Fushan gold mine 61# vein run through the goaf，so the air leakage passage can not be controlled by filling or sealing.The main fan air inlet sides of the exhaust ventilation system are in the zone of negative pressure，which leads to increased volume of air leakage in gob area，the low air efficiency of the system.Through the analysis of characteristics of air leakage in mine goaf，the underground goaf air leakage control is studies by establishing the dynamic model of the ventilation system，optimizing the ventilation network，and adjusting the wind volume and pressure.The fan FM technology remote control is additionally arranged in the operating frequency of the air ventilation equipment side，changing air leakage channel at both ends of the pressure difference，to realize the change of 61# ore vein of air leakage and air leakage quantity to and solve the air leakage problem.Research shows that the pressure balance and centralized remote control technology can effectively control the Fushan gold mine out of the ventilation system air leakage in gob area and ensure the reliability and stability of mine ventilation system.

Stability Analysis of Jingfeng Gold Mine Open Side-slope and It's Retaining Wall Support

LI Ji-Xing

2016, 45(09):  179-183. 

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The slope rock mass of Jinfeng Gold Mine is complex and fractured.It's different levels of landslides have occurred in the slopes of all directions.To ensure a safe，efficient and steep slope mining，numerical simulation on stability of slopes being mined was proposed.To investigate the slope displacement under mining disturbance，3 spots were set in the bottom，east and west of the numerical slope model respectively.It is found that the west slope was greatly influenced by mining through contrasting the 3 spots displacement from the 3D space.It was suggested to make main reinforcement and support for the west slope and protect the slopes by gravity retaining wall support.Related parameters of the retaining wall and slide-resistant piles were calculated.Then it is designed that the retaining wall be founded in the fractured area of the west 660~640 m RL slope.The results show that in the horizontal direction，the retaining wall can answer the requirement of protecting a steep slope mining when constructed as that linear load of the upper and lower wall is higher than 782 kN/m and 160 kN/m respectively，while shear linear load of the slide-resistant piles is higher than 471 kN/m.Under such circumstances，stability coefficient of anti-dump and anti-slide of the retaining wall are both greater than the retaining wall construction safety standards.

Disaster Analysis of the Deformation and Instability of Phosphate Rock Bedded Slope

LI Xiao-Shuang, LI Yao-Ji, CHENG Xing-He, HUANG Jie, WANG Meng-Lai

2016, 45(09):  184-188. 

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With the Jianshan Phosphate Mine in Yunnan Phosphate Chemical Group Limited Company engineering background，and in terms of the deformation and instability characteristics of stratified steep dip rock slope，the slope instability process and intrinsic controlling factor have been analyzed by using the cusp catastrophe model.The excavation stability of open-pit slope has been researched with respect to the stress state of the stratified rock slope.The results show as following：（1）With the thickness of strata increasing，lithodeme flexural strength of rock would increase，which could effectively control and prevent from the turn sand twists failure.The rock-soil anchor technology or the step bedding cleaning could reduce risk of this kind of slope instability.（2）With the thickness of bedding slope fixed，the critical slope length would show downward trend with the increase of strata inclination.The thicker the thickness is，the severer the trend becomes.If the inclination is fixed，the critical slope length would show upward trend with the increase of strata thickness.The higher the inclination is，the lower the amplitude becomes.Meanwhile，if the strata inclination is higher than forty degrees，critical slope length increasing amplitude caused by the thicker thickness of strata tends to coincide.The relevant research results provide theoretical and technical guidance and advice for the open pit transportation technology of the mine or mining area with similar conditions.

Improved SVM Algorithm Method of Mine Geological Environment Evaluation Model

LI Ying, XIE Hai-Bo

2016, 45(09):  189-192. 

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The object samples of classical SVM (support vector machine ) is large and the operation speed of SVM is slow,which is lead to evaluate the mine geological environment by adopting the classical SVM algorithm with high efficient.The classical SVM algorithm is improved,a new mine geological environment evaluation model based on improved SVM algorithm is proposed.Based on the bit compression principle,firstly,the sample data is conducted bit compression;then,the classifier is trained by using the weighted SVM to improve the convergence rate.Taking the actual measured data of a mining area of Jiangxi province,the comparison and analysis between BP neural network algorithm,classical SVM algorithm and improved SVM algorithm are conducted,the results show that:①the error and convergence speed of the evaluation model established by improved SVM algorithm are superior to the error and convergence speed of the evaluation model established by BP neural network algorithm,the output errors of the evaluation models established by classical SVM algorithm and improved SVM algorithm are similar to each other,but the convergence speed of the evaluation model established by the improved SVM algorithm is higher than that of the evaluation model established by classical SVM algorithm;②with the increasing of bit compression digits,the training sample reduced rate of improved SVM algorithm is increased gradually,the output errors of the evaluation model established by the improved SVM algorithm can be keep unchanged under the conditions of reducing the samples,shortening the training time and improving the convergence rate.The study results of the paper can further indicated that the samples can be decreased,besides that，the training rate is also improved under the conditions of establishing the mine geological environment evaluation model by using the improved SVM algorithm proposed in this paper.

Research and Industrialization of Metal Mine Tailings Microcrystalline Materials in China

ZHANG Jin-Qing

2016, 45(09):  193-196. 

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Application and national industrial policies of microcrystalline materials produced by metal mine tailings was briefly introduced.Research and industrialization of tailings microcrystalline materials that have been done by research institutions represented by Chinese Academy of Geological Sciences are introduced in detail.On the analysis of the status quo of microcrystalline materials market in China，demand for the products is predicted.It came to a conclusion that metal mine tailings microcrystalline materials industry is a new industry with remarkable economic and social benefit and bright prospect.