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    25 February 2020, Volume 36 Issue 02
    Previous Issue    Next Issue
    Top Innovative Talents Cultivation in New Engineering under the Background of "Double First-rate"
    Gao JingxiangDing HuaiDuan Chenlong,
    2020, 36(02):  1. 
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    The quality of high-level talents cultivation of engineering graduate students is an important support and guarantee for the country′s economic and social development and progress.With the development of new industrial revolution and the proposed concept of "new engineering",an important subject is how to accurately understand the connotation and objectives of new engineering under the background of the national "double firstrate" construction,and how to subsequently establish a relevant training system for top innovative talents cultivation.The cultivation objectives and specific measures of new engineering talents under the background of  "double first-rate",it is concluded that the cultivation of high-level postgraduate talents should start with correct positioning and clear objectives,followed by controlling from all aspects of talent training,strengthening the process management,and implementing the elimination mechanism.KeywordsNew engineering,"Double first-rate",Talent cultivation
    Geochemical Anomaly Characteristics and Prospecting Direction of Southern and Periphery of Pulang Mining Area,Western Yunnan Province
    Wu Lianrong, Zeng MinLi ZhipengZeng HongkunShen Qiwu
    2020, 36(02):  4. 
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    Pulang Copper Mining Area is a super large deposit in ThreeRiver metallogenic belt,which characterized by superior oreforming geological conditions.However,the southern and periphery of Pulang mining area has the low research level,by limited to complicated geographical environment.Through the geochemical survey,the anomaly shape and enrichment regularity of element are analyzed.Besides,the polymetallic mineralization and mineralization regularity are redefined,and further defined the prospecting direction.The research results show that the anomaly elements of soil geochemistry mainly includes Ag,W,Zn and Au,which overlap occurred by zonal distribution and flake distribution;four comprehensive anomalies,which including AuAsAgW (HS1),AuWCuAsMoAg (HS2),ZnHgAsWSb (HS3) and AuAsZnHgWSb (HS4) are delineated;the HS2 anomaly belt is highly consistent with magmatic rock and sedimentary rock contact zone,which characterized by superior orecontrolling condition and orecontaining condition,the gold orebed which exposed by borehole engineering can be regarded as the favorable position to find gold polymetallic mineralization/ore-bodies.
    Geophysical Characteristics of Permian in the Western Slope of Songliao Basin:Taking Tongyu Fault Depression as an Example
    Yuan Yongzhen, Zhang Penghui, Zhang Xiaobo,
    2020, 36(02):  8. 
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    Tongyu fault depression is located in the sestern slope of Songliao basin,based on the study of regional stratigraphic development characteristics,t is believed that the Upper Paleozoic in the western slope of Songliao basin has a good prospect for oil and gas exploration.But the hydrocarbon of stratigraphic strata in the upper Paleozoic is unclear.In this study,stratigraphic physical specimens of the western slope of Songliao basin area are systematically collected and density,magnetization and resistivity are tested.The petrophysical parameters of the strata in Tongyu fault area are systematically analyzed,based on an analysis of the physical characteristics of rock strata and taking advantage of the gravity,magnetic survey and electrical method,the comprehensive interpretation is done and the distribution and tectonic framework of the upper Paleozoic and tectonic framework are discussed.The above study results provide the basis for evaluation of the oil and gas resource potential.
    Geological Investigation Practice of Disaster Elimination and Reinforcement of Small Reservoirs:A Case Study of Nawo Reservoir
    Yang Lizhong Fu Xiaolong
    2020, 36(02):  11. 
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    Affected by the disease,the Naghu Reservoir cannot operate at normal water level,it operateds at low water level all year round.The flood control and irrigation functions of the reservoir is not functioning properly,which is not conducive to the flood control and farmland irrigation of villages along the downstream.In order to restore the flood control and irrigation function of the reservoir,it is necessary to eliminate the disaster and reinforce the reservoir.The geological investigation work of the disaster elimination and reinforcement engineering of Nawu Reservoir is carried out,so as to find out the causes of the reservoir disaster and provide geological suggestions and basis for the design of the reinforcement engineering.
    Application of Transient Electromagnetic Method in Coal Mine Hydrogeological Exploration
    Wang Jie
    2020, 36(02):  14. 
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    Transient electromagnetic method (TEM) has strong response to some low resistivity bodies and is widely used in underground hydrogeological survey in coal mines.This method can be used to measure irregular water bodies such as waterbearing structures and underground karst caves to avoid the risk of coal mining.Aiming at the water accumulation and aquifer distribution in goaf during coal mining,the practical application effect of transient electromagnetic method in hydrogeological exploration of a coal mine is analyzed,so as to lay the foundation for the rational development of coal mining.
    Optimization of Panel Interval Pillar Minging in Wuzhuang Iron Mine
    Liu AixingWang Liang, Yue Liang
    2020, 36(02):  20. 
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    Based on the uncertainty of the width of the interval pillar,the fact that both sides of filling bodies and the high height in Wuzhuang Iron Mine,in order to ensure the safety and efficiency of stope interval pillar,the core design scheme of stope backfill on both sides of stope interval pillar is designed,the backfill is sampled,and the compressive strength test of laboratory test block is carried out.The test results show that the strength of the backfill in the onestep stope (pillar) conforms to the requirements of the design strength on the whole,while the strength of the twostep stope backfill is on the whole low,the width of the interval pillar in the disk section varies greatly compared with the design,and the width is extremely irregular,which is generally narrow at the top and wide at the bottom.Due to the pannel interval pillar width is irregular,two steps stope filling body strength lower than expected,excessive stope height and large area can′t be exposed during interval pillar stoping,the stoping scheme based on setting a certain thickness pillars and adopting small stope length is proposed,therefore,the sublevel stoping subsequent backfilling stoping method for small stope is designed.The design and implemtation of the scheme could provide reliable reference for the threestep interval pillar mining engineering of the other mines.
    Practice of Optimization Engineering for Large Openpit Mine Boundary
    Li YinxiaSheng XiaoyaXu XiaodongWu Lei
    2020, 36(02):  24. 
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    Openpit iron mines are affected by geological disasters such as slope landslides,caving,deformation instability,debris flow,collapse etc,or by ore production demand and price changes,the stripping ratio should be adjusted.The development of mining,mineral processing and smelting technology leads to great changes in ore grade.It is inevitable that some large openpit iron mines are not suitable for the preliminary design of mines in the middle and late stages of production,therefore,it is necessary to carry out the boundary optimization engineering to correct it so as to obtain the necessary security and good economic benefits.Taking a largescale openpit iron mine in China as an example,the necessary of boundary optimization of the mine is analyzed from the aspects of resources,safety,economy and organization technology,and the principles of safety,reasonable recovery of resources and economy should be followed in boundary optimization are summarized.The results before and after boundary optimization is discussed.At the same time,the problems encountered in the process of boundary optimizing the implementation of the mine and the measures should be solved are analyzed and discussed so as to provide reliable reference for similar mines.
    Study on Grouting Reinforcement Technology under Various Complex Geological Conditions
    Wang GuangdeCui Jie
    2020, 36(02):  26. 
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    Aiming at the problems that complex geological conditions such as large and wide fissure alteration zone,large water inflow,rock fragmentation and so on affect the excavation of shaft and roadway,taking the deep development engineering in the northern area of Xishimen Iron Mine as an example,considering the geological conditions and construction conditions of the mine,the overall scheme of combined grouting of filling,infiltration and fracturing is put forward,the requirements of the stable construction under complex geological conditions,besides that,the scheme proposed in this paper adapts to different types of construction requirements and ensures the smooth implementation of deep development engineering.
    Study on the Reasonable Location of Mining Roadway in Isolated Island #br# Working Face of Shenjiao Coal Mine
    Chai ShitingWang Dongxing
    2020, 36(02):  31. 
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    Taking the Shenjiao Coal Mine 2307 island working face as the engineering background,this paper studies the rational location of mining roadway in isolated island working face by means of theoretical analysis,field test and numerical simulation.Geomechanics evaluation of surrounding rock of roadway was carried out,so as to obtain some information of surrounding rock lithology,the combination of roof strata and roof failure.The characteristics of regional gravitational field of 2307 isolated island working face are obtained.The peak value of principal stress lies in the 5 m range of the side of goaf and the direction and ratio of principal stress change with the advance of mining.The shape characteristics and evolution law of plastic zone in surrounding rock of mining roadway under different pillar sizes are discussed,and the pillar size is determined as 20 m synthetically.Based on the above discussion results,the flexible support scheme is put forward and the industrial test is carried out,which can ensure the roof stability.The above study results can provide guidance and reference for the stability control of surrounding rock of mining roadway in island working face with similar geological conditions.
    Practice on Well Drilling Technology by Once Blasting of Ultradeep Chute
    Chen GuohuiZeng HuimingLiu Qi
    2020, 36(02):  36. 
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    In order to solve the problems such as low efficiency of excavation and poor safety and so on,taking the excavation ore removal shaft of Shizhuyuan Polymetallic Mine as the study example,well drilling technology by once blasting is proposed.According to the special blasting conditions of the mine,the layout parameters,charging structure and blasting sequence are designed.The practice results show that the application results by using well drilling technology by once blasting is ideal,the chute passes through the upper and lower sections,which is accordance with the design.Compared with the shaft construction by ordinary method,the cost is saved by 30.7%,the time is saved by 58.3%,the economic benefits are significant,the construction period is shortened,and the safety is guaranteed,therefore,the technology proposed in this paper can be used in other similar mines.
    Application of 3D Detection and Modeling Technology in Recovery Scheme Design of Old Mine Residual Mineral Resource
    Zhang Binhua
    2020, 36(02):  39. 
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    present,most of the small and mediumsized old mines in China are facing a series of problems,including the lack of data that cannot accurately determine the location of old minedout areas and remaining resources,cannot accurately grasp the remaining resource forms and recoverable amounts,recycling scheme design cannot match actual resources,etc.The above problems can be solved through the application of 3D detection and modeling technology in the accurate positioning and recovery scheme design of old mine residual mineral resource.Taking Pinfeng SPbZn Mine of Fuchen County of Fujian Province as an example,by using threedimensional laser scanning technology to construct a threedimensional model of the goaf in the old goaf,combined with the threedimensional modeling calculations,the threedimensional model of recyclable residual mineral resource is established.Through model division and cutting,according to the actual shape of the ore body,the cutting and perforating works are arranged in the 3D model,and then imported into the plane construction drawing,which reduces the design workload,and the scheme can accurately match the ore body and reduce the design deviation.Due to the existence of a large number of old minedout areas,in order to ensure safety,based on an accurate threedimensional model of the minedout area and remaining resources,a stable monitoring plan for the minedout area was developed,and monitoring sensors were deployed to ensure recovery safety.
    Study and Application of Slot Technique in Pillarless Sublevel Caving Method
    Xu Anzhi Liu Yunqiu
    2020, 36(02):  50. 
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    Research and Application of Phrasebearing Ultralean Vanadium Titanomagnetite Mining Technology
    Zou Zhengqin Ge Yujie Ji Ruifeng Han Ming Song Yang
    2020, 36(02):  55. 
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    In chengde BaiQuan ultra lean vanadium titanium magnetite iron ore mining process as the research object,based on the elaborating management idea,from the optimization process,scientific guidance,strengthening the management and technical innovation,etc.,talk about the optimization of ultra lean vanadium titanium magnetite mining technology research and application,to improve the utilization rate of mineral resources,reduce the mining cost,and improve the efficiency of mining production.
    Comparison and Selection of Roadway Layout Schemes in Ⅲ4 Mining Area of Luling Coal Mine
    Jiang Dafeng Liang Xuchao
    2020, 36(02):  57. 
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    Study and Application of Optimization of Magnetization Roasting Process for a Refractory Iron Oxide Ore
    Liu Changdong Li Guangwen
    2020, 36(02):  60. 
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    In the roasting separation process of Jingtieshan iron ore lump ore in Jiugang,there exists the problem of high surrounding rock content of primary dry separation tailings,which not only has large secondary roasting quantity,high energy consumption and poor roasting quality,but also affects the effect of secondary dry separation.In order to solve these problems,the scavenging technology of primary dry separation tailings was studied.The results show that the re-separation of primary dry separation tailings,the separation of coarse-grained ore by separator,the separation of fine ore by dry magnetic separator,and the combination of sweeping concentrate and raw ore for primary roasting not only cancels the secondary roasting operation,but also reduces the return roasting amount,reduces the energy consumption of roasting process and reduces the metal loss.

    Comparative Experimental Study on Mineral Processing Process of a Coppersulfur Ore from Anhui Province
    Wan Li, Zhou Shaozhen, Zeng Kewen, Sun Zhijian, Yu Yang,
    2020, 36(02):  63. 
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    A coppersulfur ore containing 0.85% Cu and 15.23% S from Anhui Province was treated by "copper and sulfur isoflotationmiddling regrindingcopper and sulfur separation" process,of which the production index was not good enough.In order to improve the production index,tests of three different technologies,"copper and sulfur bulk flotationrough concentrate regrindingcopper and sulfur separation" process,"copper and sulfur bulk flotationmiddling regrindingcopper and sulfur separation" and "copper and sulfur bulk flotationmiddling regrindingcopper flotationsulfur flotation" were carried out,of which the tests indexes,reagent cost,stability and plant transformation were compared and analyzed.Results showed that the "copper and sulfur bulk flotationmiddling regrindingcopper flotationsulfur flotation" process was recommended.
    Flotation Test of a Low Grade Refractory SilverLeadZinc Ore
    Wang Wei
    2020, 36(02):  67. 
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    A lowgrade silverleadzinc multimetal sulfide ore contains 74 g/t of silver,0.36% of lead,and 0.82% of zinc.The silver minerals are mainly fragile silver ore and argyrite,the lead minerals are mainly galena,the zinc minerals are mainly sphalerite,the main gangue minerals are quartz,followed by muscovite,chlorite and potassium feldspar.The silverleadzinc minerals in the ore are all partially being oxideized,most of the leadzinc minerals are coarse in grain size,and a few are finegraind,silver is distributed in lead,zinc,sulfur and other minerals,and the grain size is relatively fine.In order to determine the process flow,a beneficiation test was carried out.The results indicated that at the grinding fineness of 55% passing 74 μm,via silverlead combined floatation first and then zinc floatation,finally sulfur flotation test to treat the ore.Silverlead concentrate which contains 8 515 g/t silver,51.64% lead and 4.61% zinc,the recoveries are 42.41%,56.04% and 2.15% respectively.Zinc concentrate which contains 45.47% zinc,1 692 g/t silver and 3.48% lead,the recoveries are 69.63%,27.71% and 12.42% respectively.Sulfur concentrate which contains 43.79% sulfur,781 g/t silver,the recoveries are 10.56% and 5.63% respectively.
    Study on the Technology of Quality Improve Reducing Silicon and Aluminum with High Purity Iron Powder in Aba Mining
    Song Lin Peng Yinglin Wang Lei
    2020, 36(02):  71. 
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    Aba Mining highpurity iron powder has high content of silicon and aluminum,they affect the value of the product.In order to reduce the content of silicon and aluminum in iron concentrate,the technology of improving quality and reducing silicon and aluminum was studied.The results show that,after grinding to 0.063~0 mm,the sample is subject to low intensity magnetic separation,harmonic magnetic separation,magnetic separation column magnetic separation,one roughing and one cleaning reverse flotation,high purity iron concentrate with Fe,SiO2 and Al2O3 contents of 72.38%,0.099% and 0.131% respectively can be obtained,and the secondary iron concentrate with Fe,SiO2 and Al2O3 contents of 71.58%,0375% and 0.220%,respectively.
    Experimental Study on Beneficiation of an ArsenicBearing Copper Ore in Shaanxi Province
    Wei Yaru, Wang YubinWang WangboWang Huian
    2020, 36(02):  75. 
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    An arsenicbearing copper ore in Shaanxi Province contains 0.74% copper,0.43% arsenic and 1.54% sulphur.The main useful minerals are chalcopyrite,chalcocite,and the impurity minerals are arsenopyrite,and pyrite.The complex dissemination relationship of copper and arsenic are closely combined and fine encapsulated among many minerals cause great difficulty of copper ore to be liberated.The beneficiation experiment was carried out and the test results showed that good indexes could be obtained.Using the preferential flotation flow and the lime as the inhibitor to suppressing arsenic and floating copper,the ideal copper concentrate contained 25.27% Cu,0.085% As ,0.23 g/t Au and 40.52 g/t Ag with copper recovery of 92.72%,and flotation tailing contained 0.053% Cu was obtained respectively.The results of the copper concentrate grade up to the national level six standard shows that the process is feasible.
    Experimental Study on Cationic Reverse Flotation Process of Primary Ore in Sijiaying Iron Mine
    Yuan Teng
    2020, 36(02):  78. 
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    After the technical transformation of the primary ore grinding system in Sijiaying Iron Mine,the system productivity is greatly increased.Affected by the subsequent sorting ability,the grade of the three magnetic concentrates fluctuates greatly,and finally affects the stability of the concentrate index.In order to balance the processing capacity of the system,the local anion reverse flotation process is adopted,but the cost is high.In order to reduce the production cost of reverse flotation process system,according to the application status of cationic collector in China,GE609 and S1 were selected for laboratory comparison test and GE609 industrial test.Industrial tests have shown that,under the condition of GE609 dosage 160.46 g/t,the better indexes of concentrate grade 68.67%,tailings grade 21.44% and metal recovery rate 94.60% were obtained.Compared with the anion reverse flotation process,the cationic reverse flotation only needs to add one kind of reagent,with high operability,and obvious advantages.
    Study on New Mineral Processing Technology of Clean Production without Lime in Huangshaping LeadZinc Mine
    Hu ZhenWu HongqiangHuang ShenlongLong HuiyouChen Pengfei
    2020, 36(02):  81. 
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    For many years,Huangshaping leadzinc concentrator has adopted the preferential flotation process of leadzinc under the condition of high alkalinity to recover leadzinc.The addition of a large amount of lime has restrained some of the lead and silver metallic minerals,which leads to the difficulty in breaking 45% of the recovery of associated silver with lead concentrate.There are some environmental problems such as high alkalinity and COD of tailings water in concentrator.In order to improve the recovery rate of associated silver and improve the environmental protection level of Huangshaping,the company organized and carried out the research on the new mineral processing technology of leadzinc limefree production.The results show that under the condition of natural pH,the recovery of lead and zinc is increased by 0.3 percentage points and the recovery of zinc is increased by 1.5 percentage points compared with the highalkali process The recovery of associated silver in lead concentrate was increased by 9.82 percentage points,and the economic and environmental benefits were significant.
    Development and Application of Ultra Thin Rare Earth Magnetic Disk Separator
    Xu Shaohua, Lin Tiansheng, Zhang Jun, Liu Jianguo, Zhang Hongying,
    2020, 36(02):  84. 
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    The design method and advanced manufacturing technology of SLMS600 type ultra thin rare earth magnetic disk are introduced,the structure and separation principle of SLMS600 type magnetic disk separator are described.Aiming at the mineral processing waste water of a leadzinc mine,the neutralizationmagnetic flocculationmagnetic separation integrated waste water treatment process based on SLMS600 type magnetic disk separator was adopted.The results show that the removal rate of solid suspension was 97.5%,the removal rate of Cu2+ was 68.8%,and the removal rate of Pb2+ was 94.1%.The process has the advantages of high treating speed and cover a small area,and the quality of treated water can meet the requirement of the concentration of solid suspended substance and some heavy metal ions.SLMS600 type magnetic disk separator has a good application prospect in the field of solidliquid separation such as mine waste water treatment.
    Design and Optimization of Backfill Strength for Superlarge Goaf
    Zhang ChunpengCao WanbaoWu Heping
    2020, 36(02):  88. 
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    In order to maintain the stability of the superlarge goaf and maximize the recovery of the pillar of a mine,by using engineering analogy method and theoretical calculation method,it is concluded that the design strength of 2 MPa and 1.5 MPa.According to the designed strength,the ashsand ratio is between (1∶4)~(1∶8),after the stress analysis on both sides of the backfill,the ashsand ratio should be appropriately increased at the roof and floor with large stress,so that the compressive strength of the designed backfill is higher than the actual strength.Empirical formula and Yangxin formula are used to calculate and compare the selfsupporting strength of backfill,and the design strength of 40 m high backfill is 1.664 MPa.The study results show that the floor of No.3 ore body goaf is filled by cement with a sandlime ratio of 1∶4,and then it gradually drops to a sandlime ratio of 1∶8;in the middle section,the ashsand ratio is 1:4 and the filling height is not less than 6 m;in the roof 2 ~ 3 m,a higher ashsand ratio or even cement mortar should be used.Therefore,the best filling effects can be obtained,safety and sustainability production of the mine can be guaranteed.
    Cementation Performance Test of Finegrained Tailings of a Gold Mine in Shandong Province
    Song Yanmin
    2020, 36(02):  92. 
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    In order to solve the difficulties existed in the process and utilization of the tailings of a gold mine in Shandong Province,the ratio of the new cementing powder,concentration of tailings and ashsand ratio are studied by single factor test.Through the analysis of the strength of cementing backfill,the optimum ratio of selfmade new cementing power is 60∶30∶10 (slag∶clinker∶desulphurization gypsum) based on the strength analysis of cementing backfill.When the tailings concentration is 72%and the ashsand ratio is 1∶10,the compressive strength of the 28 d consolidated backfill is 5.30 MPa,which meets the requirement of the 28 d strength (≥ 4 MPa) of the false roof of the downward drift filling mining method.Under the condition that the ashsand ratio is 1∶20,the compressive strength of the 28 d consolidated backfill is 1.82 MPa,which can meet the requirements of the 28 d strength (≥1 MPa) of the backfill except the false roof of the upward mining method and downward drift mining method.Under the conditions of the same concentration and the same ashsand ratio,the compressive strength of the cementing backfill by using the selfmade new cementing powder is 184% higher than that of 42.5 ordinary portland cement,and the cost is 28.8% lower than that of 42.5 ordinary portland cement,the effect and benefit are both significant.
    Application of Cohesive Granular Explosive in Beiminghe Iron Mine
    Xie Mingxing
    2020, 36(02):  108. 
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    Application of Wholeprocess Screen Pipe Hole Protection in Highlylocated Gas Drainage Borehole
    Zhao Lianghong
    2020, 36(02):  110. 
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    Dashuitou Coal Mine is an outburst coal mine with highlylocated gas in "triosoft (soft roof,soft floor and soft coal quality) thick seams.The East 106 working face was subject to the influence of the fault belt and was in an area of overlaying crustal stress,therefore under huge gas and mine ground pressure.By analyzing the relationship between working face progress and the caving zone,fraction zone and curve subsidence zone in the goaf,the author developed a reasonable design of the highlylocated gas drainage drill holes and employed wholeprocess screen pipe hole protection based on the effect of the periodic weighting of the fully mechanized caving face on highlylocated boreholes so as to avoid hole collapsing and to guarantee the effective lapping of highlylocated gas drainage boreholes.The above study results is of great significance to the spread of the method with better gas controlling effect,costs,operating efficiency,etc.than traditional drainage boreholes in gas control in coal mines.
    Study of Human Factor Risk Prediction Based on Cumulative Logistic Regression Model
    Li HongtaoNie XiaofeiLiu Xianglong
    2020, 36(02):  113. 
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    In order to improve the sense of occupational safety responsibility of coalmine workers and reduce the accident rate,the thesis take advantage of the rough set theory and SPSS software,which were used for correlation analysis to select eight significant threelevel human factor risk factors.A human factor risk prediction model based on logistic regression analysis was established,and three significant risk factors (cultural level,mood swings and technical proficiency) were analyzed.On the same time,the results show that the significant level of goodness of fit coefficient of the model is far greater than 0.05,and the prediction accuracy of the measured data is 80.5%.With the help of scientific calculation,the application necessity of emotion management in safety work is obtained,which provides valuable reference for enterprise management.
    Design and Practice of Local Ventilation in Deep Prospecting Engineering of Erlihe Leadzinc Mine
    Zhao Linhai Zhang Lei Wang Zheng Liu Jiayu
    2020, 36(02):  116. 
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    With the working face of deep prospecting engineering of Erlihe Leadzinc Mine moving downward,the ventilation resistance is increased correspondingly.The local ventilation effects have become the bottleneck restricting the progress of prospecting engineering.The prospecting engineering can be divided into two stages of main inclined shaft excavation and middle section excavation.The pressurepumping mixed local ventilation is adopted in both stages because of the long distance of single heading.According to the engineering design,the parameters of the longest single heading distance and the largest wind resistance are selected for equipment selection.According to the measurement of engineering practice,during the period of inclined shaft excavation,the wind speed on the face of the middle part of the deepest of 1 000 m middle section is 0.27 m/s,and during the parallel excavation of 1 050 and 1 000 m middle section,the wind speed on the face of the longest single heading roadway in the middle part of 1 000 m middle section is 0.31 m/s,which meets the relevant requirements of "Safety Regulations for Metal and Nonmetallic Mines",so that the deep prospecting project can be completed five months ahead of schedule.In addition,the problems existing in the design and operation of the deep local ventilation system in Erlihe Leadzinc Mine are summarized and some related improvement suggestions are discussed,which can be used for the reference in solving the local ventilation problems in underground mines.
    Law of Rock Pressure And Surrounding Rock Control of Automatic Roadway Formation by Roof Cutting and Pressure Unloading in Dianping Coal Mine
    Fan WeigangZhu CunliWang JiaqiWang Yuyao
    2020, 36(02):  121. 
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    In order to solve the loss of coal resources of Dianping Coal Mine,the technology of retaining roadway along goaf is used to recover coal pillars in sections and reduce the loss of coal pillars in sections.Meanwhile,the technology of automatic roadway formation by roof cutting and pressure unloading is used in this coal mine to reduce the transmission of stress on the roadway roof caused by the interlocking of adjacent fracture blocks.Moreover,the optimal height and Angle of roof cutting make it possible for the direct roof to slip and collapse smoothly after roof cutting and pressure relief,which will not cause stress concentration of roadway roof and make roadway support difficult to stay along gob.Through numerical simulation and engineering practice,the optimal height and angle of roof cutting are verified.Finally,the maximum amount of roof and floor moving of the working face is only 250 mm is measured through engineering practice,the significant engineering effects is obtained,besides that,it can provide reliable reference for the simialr mines.
    Practice of Doublestrong Coupling Technology of "DepressurizingSupporting" to Preventing Rook Burst in Hengda Coal Mine
    Zhang Xincai
    2020, 36(02):  125. 
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    Hengda Coal Mine is a coal mine with strong burst tendency.The rock burst prevention is analyzed based on No.5366 working face.On the basis of the division of rock burst dangerous area of the working face,the doublestrong coupling technology of "depressurizingsupporting" is adopted to control rock burst.The mining practice shows that the technology has significant effect on preventing and controlling rock burst,which ensures the safe production of the working face.
    Discussion on Safety Preevaluation and Orientation of Metal Nonmetallic Mines in China
    Fu ShigenDong HeweiQin XuanHu Jiaguo
    2020, 36(02):  128. 
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    Aiming at the existing problems of safety preevaluation,by metallic and nonmetallic mine construction project safety preassessment,for example,according to the safety facilities directory (trial) and the demand of the project safety assessment report writing outline,from safety preevaluation scoping,preevaluation report content key points,qualitative quantitative method,the preevaluation report of timeliness,etc.,the safety preevaluation in economic development under the new normal positioning are discussed,the expects of safety preevaluation to service enterprise well,really provide a beneficial reference for the designs of safety facilities.
    Analysis of the Influence of Underground Mining on Open Pit Based on Probabilistic Integral Method and FLAC3D Numerical Simulation Method
    Yu YunlinHou KepengCheng YongYang Bajiu
    2020, 36(02):  131. 
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    In order to ensure the safety and stability of synergistic mining of underground orebody and openpit orebody,the probability integral method and SUFER software are obtained according to the occurrence condition of the orebodies,the surface subsidence results are predicted.The predicted results are compared with the FLAC3D numerical simulation results through the relevant provisions in the "Nonferrous Metal Mining Design Code",so as to analysis the influence of the mining methods on the stability of open pit located on the surface.The deformation prediction results by probability integral method show that after underground mining,the whole open slope is within the protection range of grade III structure;the computation results by using numerical simulation method show that the whole open slope is within the protection range of grade II structure after underground mining.The probabilistic integral method under ideal conditions is roughly consistent with the results of FLAC3D numerical simulation method,they are within the allowable range of safety regulations,which have guidance reference for the synergistic mining of underground and openpit,besides that the accuracy of the two methods are confirmed.
    Study on the Characteristics of Multiparameter Monitoring Effect of Strong Mine Tremor
    Ouyang GuangchenMan Chao
    2020, 36(02):  135. 
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    In order to study the characteristics of multiparameter monitoring effect of strong earthquake,the coupling analysis of multiparameter monitoring data of microearthquake,electromagnetic radiation and ground sound was carried out based on the research background of strong earthquake in No.34 section of No.17 North floor of Junde Coal Mine.Finally,the characteristics and main influencing areas of 9.12 strong mine tremor in the first section of No.34 area are obtained,which can guide the followup safety production in advance,and also provide reference for the joint application of multiparameter monitoring of other similar mine tremors.
    Experimental Study on Acoustic Emission Characteristics of the Limestone and Sandstone under Different Loading Rate
    Jiang Bowei Zeng Sheng Tang Zilong
    2020, 36(02):  138. 
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    The uniaxial loading acoustic emission test under different displacement loading rates was carried out by the RMT-150b rock mechanics rigid servo machine.The acoustic emission characteristics of limestone and sandstone during the process of deformation and destruction were tested and analyzed.The results show that when the loading rate increases,the uniaxial compressive ultimate strength and the ringing count of the limestones with the strength of 148.89~202.02 MPa will increase first and then decrease.The frequency of ringing count will decrease first and then increase.Then the uniaxial compressive ultimate strength of the sandstones with the strength of 77.52~94.59 MPa will decrease when the loading rate increase.At the same time,the extreme value of ringing count will firstly decrease and then increase.The acoustic emission activity is active in the rock damage stage when the loading rate is lower.In this case the frequency of the ringing count is higher and the distribution is uniform.After the rate increases,the ringing count is easier to increase sharply,and the frequency of ringing count is relatively smaller with uneven distribution characteristics.The change rule of acoustic emission energy is same with the rule of ringing count.The the above study results has a certain reference significance for predicting the instability and damage of mine surrounding rock by the acoustic emission monitoring technology.
    Comparision and Selection of Ventilation System of Luoshan Gold Mine
    Wang LinhongZhou WeiJia MintaoWu LengjunJu WeiweiLu Zhiyong
    2020, 36(02):  141. 
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    Aiming at the problems of ventilation in Luoshan Gold Mine,such as lack of total air volume,insufficient return air capacity of the system,low operation performance of the main return fan station and series connection of polluted air,two kinds of technical renovation schemes are designed by using ventilation network optimization technology,station optimization technology and ventilation simulation technology.Through technical and economic analysis and comparison,the optimization scheme that utilizing the existing intake shaft engineering as the system air passage,the newly excavated east air shaft and west air shaft engineering as the system air return passage,the air flow rate of the mine can be improved effectively,the effectively air volume rate of the mine is increased,besides that the above scheme has the advantages of simple ventilation mode,good air flow stability and low energy consumption of ventilation operation.After the implementation of the scheme,the total air volume of the mine reaches 189.01 m3/s,the operation efficiency of the main fan of the system reaches 80.5%,and the underground ventilation conditions are obviously improved.
    Discussion and Research on Analysis Method of Safety Hazard Management
    Zhang Hongcai
    2020, 36(02):  148. 
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    Study on the Optimization of Ventilation System in Zhaozhuang Coal Mine
    Xin Xianyao Guo Xiaodong et
    2020, 36(02):  178. 
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    Study on the Mechanism of Asymmetric Deformation of the Floor of Mining Roadway in Huipodi Coal Mine#br#
    Gong Haijun Jia Ruirong Kong Zhuang
    2020, 36(02):  185. 
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    Scheme Design of Destroying Civil Overdue Explosives by Deep Hole Bench Blasting in Open Air
    Li Jianhua Fan Xiaobin Zhang Wei Bai Qingchun Zhang Yaqun Zhang Lihua
    2020, 36(02):  189. 
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    Practice of Grouting Reinforcement Technology of Coal Pillar in a Mine
    Liu Xue
    2020, 36(02):  195. 
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    Research on Integrated Dust Prevention Technology of Single Head Roadway
    Wei Xinquan
    2020, 36(02):  197. 
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    Numerical Simulation of Copper Ion Migration in Dam body of Tailings Pond
    Zhou ZechaoLi XunLuo YueChen Jingming
    2020, 36(02):  199. 
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    In order to find out the migration of heavy metal pollutants in the dam body of tailings pond and make impact predictions,the heavy metal tailings pond is simulated by numerical experiments,the tailings pond dam conditions are generalized,and the groundwater flow model and groundwater contaminant(copper ions in tailings leachate as example) migration model are established.Through TOUGH2 software simulation calculation,the distribution of copper ion pollutants in the dam body at each moment is obtained.The simulation results show that the copper ion pollutants migrate in the groundwater flow field and diffuse in the fan shape,the movement law of copper ion pollutants in the dam body is consistent with the groundwater flow field characteristics.With the passage of time,the migration range gradually expands in the dam body,and as the migration distance increases,the pollutant concentration gradually decreases.At 2,750 d,copper ions emerged from the dam into the natural environment and began to affect the environment.The results provide a basis for environmental pollution control and prevention measures around the tailings pond.
    Facile Preparation of Ag3PO4 and Its Photocatalytic Propreties of Rhodamine B
    Yu Chaohai, Wang Xueping, Wan Lili, Xu Shenglong,
    2020, 36(02):  203. 
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    Ag3PO4 visible light photocatalyst was prepared by the precipitation method and using AgNO3 and Na2HPO4.12H2O as raw materials.The visible light photocatalyst property on rhodamine B(RB) was studied. The structure of photocatalyst was characterized by XRD,laser particle sizer and UVVis DRS.The influence of the photocatalytic activity by many factors such as illumination time,the amount of catalyst,RB initial concentration,also adding of malonic acid,ethylenediamine tetraacetic acid,hydrogen peroxide on photocatalytic property was researched.The results shown that when the amount of catalyst Ag3PO4 is 30 mg,the initial concentration of RB is 10 mg/L,hydrogen peroxide dosage is 1 mL,the light photocatalyst effect is the best,the photo-catalytic degradation rate of RB can reach 98.6%. After the addition of hydrogen peroxide,the degradation rate of RB by the Ag3PO4 catalyst increased by about 20 percentage points,and the time for completely degradation was advanced by one third.The degradation rate of RB is significantly reduced when adding malonic acid,ethylenediamine tetraacetic acid,indicating that hydroxyl radicals·OH and holes H+ may be the main active materials of the Ag3PO4 visible light catalyst.
    Application of Planting Trough Technology in Ecological Restoration of Rocky Hhigh and Steep Slopes in Tongling City
    Guan Bin, Zhu Chenglin
    2020, 36(02):  209. 
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    Ecological restoration of rocky high and steep slopes is a difficult technical project.The slopes are high and steep,and the rock mass is hard,and it is difficult to ecologically repair them with common greening techniques.This article takes the practice of mine geological environment treatment engineering in the suburbs of Tongshan City and the newlybuilt Baiyangluo Stone Material Plant as examples to introduce in detail the structural design of the planting trough,the greening design in the trough,the matrix ratio,and the maintenance system.Existing problems are elaborated.Through the implementation of this project,it provides a certain reference for the ecological restoration of other rocky high and steep slopes in Tongling City.
    Discussion on Environmental Protection in Mineral Processing Reagents
    Shang Jinyan
    2020, 36(02):  212. 
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    udy on the Industrial Application of Rolling Steel Ball by a ThreeStage Ball Mill in a Concentrator
    Yang ChunWang Shengyong Yu Ying Li Chunyan Wen Jiapeng
    2020, 36(02):  216. 
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    Cause Analysis and Control Measures of Large Blocks in the Stope of Luohe Iron Mine
    Cao JianquanSun Shiping
    2020, 36(02):  218. 
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    nstallation and Deformation Monitoring of Large Span Steel Structure Test Hall
    Li YuexianLiu YunqiuZhang Guanzhou
    2020, 36(02):  221. 
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    Analysis on Roof Management of Coal Mining Face in Coal Mine   
    Cao Xuwen
    2020, 36(02):  233. 
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    Overview of Underground Coal Mine Surveying Technology   #br#
    Wang Wei
    2020, 36(02):  235. 
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