A landfill based approach to surface mine design

Surface mining operations extract a large quantity of waste material,which is generally disposed into a dump area.This waste can cause a series of environmental problems ranging from landscape deterioration to acidic water generation and water pollution.Therefore,mine waste management is a significant task in mining operations.As known,in strip mining,the overburden is not transported to waste dumps but disposed directly into adjacent strip which was mined out.This concept can be adapted for mine planning of relatively horizontal deposits through a mixed integer programming(MIP)model.The main idea behind this work is that,in one pit,production voids created in early year of mining are used for waste landfilling in late years of production.In other words,in addition to external dumping,a landfilling option within the same pit is proposed for mine design optimization.The problem is formulated as maximization of the net present value(NPV)of the mining project under the constraints of access,landfill waste handling,mining and processing capacities.A case study using a data set was carried out to see the performance of the proposed approach.The findings showed that this approach could be used in waste management incorporating a landfilling option into mine planning.As a result,material handling costs decrease,and environmental compliance increases due to less external waste quantity.

Application of axiomatic approach to coal mine design field

Two design axioms and axiomatic approach were discussed. As an example of application, design process of a new style single prop was illustrated in term of axi- oms.

THE RELIABILITY STUDY OF MINE DESIGN

The method of reliability analysis of mineral reserve estimation, mining construction, mining technological system and surface mine investment in mine design is discussed in this paper. On the basis of this method, the questions, such as "whether the planned production and predicted economic effectiveness could be obtained", can be answered, and corresponding measures can be taken.

Artificial Neural Networks Model of Evaluating the Schemes of Mine Design

This paper is about the application of ANN (artificial neural networks) theory in evaluation of mine design schemes and a quantified evaluation method based on a three\|layer neural network is given. It studies the structure of the three\|layer neural network, its learning process, its operating algorithm to realize the evaluation of mine design schemes in a computer and a practical example is also involved in it.

Harmony between Industrial Landscape and Natural Ecology—Landscape Design of the Former Area in Wangfenggang Coal Mine of Anhui Huainan

Taking landscape design of the former area in Wangfenggang coal mine of Anhui Huainan as an example,the whole thinking and specific implementations were discussed from aspects including scenic spot planning,plant landscape and characteristics of scenic spots,and created landscape in mining areas,squares and residential districts by combining section peculiarity,old building characteristics and circumstance in the landscape design of mining areas,which aimed to realize sustainable development of landscape in mining areas.

Symmetry and conservation laws for optimum design of open pit mines

The classical physics theory respectively obeys the three famous conservation laws referred to as charge conjugation, parity and time reverse, and the open pit block model is equal to a Newtonian mechanics system. Consequently, there would exist some correspondent symmetry principles and conservation laws within the 3D fixed block model of the deposit and the theory for the optimum design of the open pit mine. Reversing a series of relevant fundamental concepts, several conservation laws, which the theory for the optimum design of open pit mines should obey, as block weight conjugation, block model parity and combined symmetry of the both, were expounded. From the symmetry principle, the theoretic significance for a series of the current optimum techniques was discussed and explained, and a kind of conjugate heuristics which can check the error of itself was presented and demonstrated. Thus it is shown that the symmetry principle lays the foundations and opens up the prospects for the further research with mine design and scheduling problem.

基于MineSight软件的米拉多铜矿露天采矿设计及其二次开发

露天采场作业面位置、矿石品位和公司管理层制订的生产任务等会直接影响生产计划的编制。本文介绍了米拉多铜矿应用矿业软件MineSight开展三维采矿设计的流程,以及应用Python编程语言,基于露天采场台阶参数关系,二次开发了采矿设计辅助工具。该工具可通过在界面直接输入不同的台阶高度和台阶坡面角,即可计算得到工作帮坡角和台阶宽度,进而将其应用于采矿设计。该软件提高了采矿设计的效率,为动态编制和优化短期生产计划提供了可靠的采场设计方案。

Removal of Copper Ions from Acid Mine Drainage Wastewater Using Ion Exchange Technique: Factorial Design Analysis

A factorial experimental design method was used to examine the “Cu2+” removal from acid mine drainage wastewater by ion exchange technique. Ion Exchange technique is preferred because of reduced sludge generation compared to conventional treatment techniques and better decontamination efficiency from highly diluted solutions. Factorial design of experiments is employed to study the effect of four factors pH (3, 5, and 6), flow rate (5, 10, 15 L/hr), resin bed height (20, 40 and 60 cm) and initial concentration of the metal (100, 150 and 200 mgl-1) at three levels. The efficiency of metal removal was determined after 100 min of treatment. Main effects and interaction effects of the four factors were analyzed using statistical techniques. A regression model was recommended and it was found to fit the experimental data very well. The results were analyzed statistically using the Student’s t-test, analysis of variance, F-test and lack of fit to define most important process variables affecting the percentage “Cu2+” removal. In this study , pH was thus found to be the most important variable.

3DMine三维矿业软件在矿山地质中的应用

以夏甸金矿为例,利用3DMine三维矿业软件建立钻孔数据库,采用勘探线切剖面图、圈定矿体轮廓等信息构建三维矿体模型,估算矿产资源储量,对矿体在深部赋存情况进行分析。通过3DMine三维矿业软件建立三维模型,实现矿产资源可视化,指导矿山生产,为矿山后续探矿工作提供模型数据依据。

Modular Combination Design of Mine Rescue Capsule Based on Load Simulation

Mine rescue capsule is a typical emergency equipment in a coal mine.It provides a safe and confined space for miners when mining disasters occurred.The length of the passenger survival cell is suitable to be adjusted with several predefined modular cells according to various numbers of passengers.Aiming at the shortage of guidance rules for the modular combination design of mine rescue capsule,the configuration situations of survival cells are experimented with static and impact load analysis in ANSYS Workbench.The length range of a single cell,the combination schemes of miner survival section,and the effectiveness proof of assembled rescue capsules were solved sequentially by simulated load analysis on constructed structural models.The modular combination rules of the survival section are developed for variant passenger number ranging from 8 to 20.It also provides a reference for the optimal selection of rescue capsules with the same capacity.The proposed modular rules are effective for the rapid configuration design for mine rescue capsule driven by the number of passengers.

Preliminary Hydrogeologic Modeling and Optimal Monitoring Network Design for a Contaminated Abandoned Mine Site Area: Application of Developed Monitoring Network Design Software

In abandoned mine sites, i.e., mine sites where mining operations have ended, wide spread contaminations are often evident, but the potential sources and pathways of contamination especially through the subsurface, are difficult to identify due to inadequate and sparse geochemical measurements available. Therefore, it is essential to design and implement a planned monitoring net-work to obtain essential information required for establishing the potential contamination source locations, i.e., waste dumps, tailing dams, pits and possible pathways through the subsurface, and to design a remediation strategy for rehabilitation. This study presents an illustrative application of modeling the flow and transport processes and monitoring network design in a study area hydrogeologically resembling an abandoned mine site in Queensland, Australia. In this preliminary study, the contaminant transport process modeled does not incorporate the reactive geochemistry of the contaminants. The transport process is modeled considering a generic conservative contaminant for the illustrative purpose of showing the potential application of an optimal monitoring design methodology. This study aims to design optimal monitoring network to: 1) minimize the contaminant solute mass estimation error;2) locate the plume boundary;3) select the monitoring locations with (potentially) high concentrations. A linked simulation optimization based methodology is utilized for optimal monitoring network design. The methodology is applied utilizing a recently developed software package CARE-GWMND, developed at James Cook University for optimal monitoring network design. Given the complexity of the groundwater systems and the sparsity of pollutant concentration observation data from the field, this software is capable of simulating the groundwater flow and solute transport with spatial interpolation of data from a sparse set of available data, and it utilizes the optimization algorithm to determine optimum locations for implementing monitoring wells.

中国天然气地下储气库重大理论、关键技术进展与展望

2019年中国地下储气库(以下简称储气库)进入高速发展期,气藏储气库面临着部分在役库达产率低、低渗泛连通气藏建库设计难度大等难题;盐穴储气库面临造腔速度慢和储气空间利用率低等挑战;油藏储气库建库机理与相关技术尚处于探索阶段,亟需攻关研究。为此,以破解气藏、盐穴、油藏不同类型储气库建库机理、储气空间优化设计等难题为目标,开展了系列理论研究与技术攻关。研究结果表明:(1)形成的在役库提高上限压力优化、大型低渗泛连通气藏建库、储气库群协同调峰优化等技术,助力气藏储气库高效建设与扩容增产;(2)建立的大井眼与水平井造腔、残渣空隙空间利用预测技术,指导了盐穴储气库高效造腔与储气空间利用最大化;(3)创建了气液高速交互滚动排驱仿真模拟与周期注采油气体系相行为模拟实验技术和油藏,形成了油藏建库驱替—传质耦合库容量预测方法,形成了油藏建库协同提高原油采收率的新模式;(4)复杂地质条件储气库高效建设运行和地下空间多元综合利用是未来增强储气保供能力和实现“3060双碳”战略目标的重要举措。结论认为,研究成果有力支撑了中国储气库快速发展,近5年来气藏、盐穴、油藏储气库建库能力全面提升,保障了储气库工作气量由100×10^(8) m^(3)向200×10^(8) m^(3)翻番增长,对我国地下储气库建设和地下空间综合利用具有重要指导和借鉴意义。

基于DIMINE软件的采矿方法真三维设计研究与实现

研究了数字矿山建设过程中采矿方法真三维设计实现的关键技术问题,分析了采矿方法真三维设计在数字矿山建设过程中的意义,借助于DIMINE矿山软件实现了矿山采矿方法真三维设计。结果表明,在矿山采矿方法设计中,应用可视化真三维技术不仅十分必要,而且完全可行,它突破了传统的设计模式和方法,极大提高了采矿方法设计的工作效率,使采矿方法的设计更加直观、形象、容易理解,应用前景必将越来越广泛。

基于DIMINE软件的采矿方法真三维设计研究与实现

研究了数字矿山建设过程中采矿方法真三维设计实现的关键技术问题,分析了采矿方法真三维设计在数字矿山建设过程中的意义,文章借助于DIMINE矿山软件实现了矿山采矿方法真三维设计。结果表明,在矿山采矿方法设计中,应用可视化真三维技术不仅十分必要,而且完全可行,它突破了传统的设计模式和方法,极大提高了采矿方法设计的工作效率,使采矿方法的设计更加直观、形象、容易理解,在今后的应用前景必将越来越广泛。

Estimating underground mine ventilation friction factors from low density 3D data acquired by a moving LiDAR

Ventilation system analysis for underground mines has remained mostly unchanged since the Atkinson method was made popular by Mc Elroy in 1935. Data available to ventilation technicians and engineers is typically limited to the quantity of air moving through any given heading. Because computer-aided modelling, simulation, and ventilation system design tools have improved, it is now important to ensure that developed models have the most accurate information possible. This paper presents a new technique for estimating underground drift friction factors that works by processing 3 D point cloud data obtained by using a mobile Li DAR. Presented are field results that compare the proposed approach with previously published algorithms, as well as with manually acquired measurements.

Strategic sill pillar design for reduced hanging wall overbreak in longhole mining

Steeply dipping,vein and tabular orebodies are traditionally extracted with longitudinal retreat mining methods such as Eureka and Avoca in a bottom-up sequence with delayed backfill.To increase productivity,sill pillars in the orebody are used to separate mining zones thus allowing production to take place simultaneously in two or more zones.While such mining methods are productive,they may be accompanied with high volumes of hanging wall overbreak causing significant unplanned ore dilution.In this work,it is shown through a mine design case study of a narrow vein deposit that a sill pillar could also play a significant role in limiting hanging wall overbreak.To demonstrate the role of sill pillar,a novel numerical modelling scheme is proposed to account for progressive stope wall overbreak.A numerical modelling approach of element death and rebirth is developed to allow for the detected stope overbreak to be immediately removed and replaced with backfill material before upper-level stope extraction.It is further shown that the average overbreak volume could be reduced by as much as 33%when the sill pillar is strategically placed in the lower half of a mine plan.

基于3DMine的露天矿开采境界的优化

在建立矿山地质数据库、实体模型及块体模型的基础上,运用3DMine矿业软件对露天开采境界进行优化;并讨论了不同矿石价格及不同边坡角对露天境界的影响,同时分析了不同条件下剥采比的变化情况;在此基础上对露天开采进行初步设计,为矿山开采提供了技术方案及决策依据。

基于DIMINE的无底柱采矿回采设计

运用DIMINE软件在三维环境中对某铁矿的无底柱崩落法进行回采设计。首先导入地质剖面图,通过不规则三角网生成地质体模型。然后导入实测巷道数据生成巷道模型。切割矿体及岩体模型形成采场模型,在采场模型中设置炮孔剖面生成爆破边界和扇形炮孔。对炮孔进行自动装药并计算装药量。最后进行炮排和进路出图并计算技术经济指标。通过运用DIMINE软件,快速准确地在三维环境下完成了无底柱采矿设计。

基于大数据挖掘的宠物猫航空箱用户需求分析和设计研究

目的大数据中挖掘更加全面的用户需求,以优化宠物猫航空箱产品设计。方法提出了一种基于大数据挖掘来获取宠物猫航空箱用户需求并对其展开分析的研究方法。首先对UGC平台评论进行语义提取及处理;其次构建需求要素模型,分析用户需求特征关系并可视化呈现;再次通过用户信息数据挖掘和定性调研绘制用户画像;最后整合用户需求特征与用户画像以构建用户行为地图,总结用户总体需求,并转化为设计需求,指导进一步设计实践和案例验证。结果将设计需求映射为功能和解决方案,进行产品设计与开发,结合用户满意度检测验证其可行性。结论对设计实践进行体验评价,结果表明结合大数据挖掘和用户需求定性分析的方法,能够有效、全面获取宠物猫航空箱的用户需求,为后续产品设计优化研究提供科学依据。

设备列车自移与起重机构的结构设计与优化

为了有效地提高煤矿的生产效率,减少工人的劳动强度,免去设备列车拉移过程的轨道安装和拆卸工序,确保井下辅助运输安全,实施综采工作面的自动化、高效开采,设备列车安全高效运行,文章使用自顶向下、逐步求精的程序设计方法,结合现有的大型设备提升机构,采用新的结构整体布置形式,设计了一种设备与轨道在大坡度巷道中的大步距交替自动前移,且能自主调偏的设备列车自移机构,以及一种能够随综采工作面的前移而前进的设备列车起重机构;并且对设备列车的平板车架与起重机构的支撑立柱进行拓扑优化设计,优化后平板车架与支撑立柱的质量分别降低了11.17%和12.84%,达到了机构轻量化设计要求。