水力旋流器内干涉沉降效应研究

研究了水力旋流器内困悬浮液浓度增大而引起的干涉沉降效应对分离效率的影响，从理论上给出了悬浮液颗粒线性浓度与旋流器分离效率之间的关系式，实验数据检验表明，该式具有良好的预测精度。

基于粒度分配曲线的Falcon离心选矿机干涉沉降机理研究

基于粒度分配曲线研究矿物颗粒在Falcon离心选矿机中的干涉沉降机理,以分选粒度d50和可能性偏差Ep作为分配率曲线的评价指标,分析Falcon离心选矿机在不同的操作条件下对粒度分配率和分选效率带来的影响。根据离心选矿机分选过程中固相浓度变化和速度变化的非稳态过程以及不同粒度的沉降情况,建立Falcon离心选矿机的干涉沉降模型,采用有限差分方法求解对流扩散方程。通过试验在不同的反冲水、离心力、进矿浓度条件下验证了模型的有效性,通过仿真分析,获得了不同的操作条件对粒度分配率和分选效率带来的影响结果。

颗粒在悬浮粒群中的干涉沉降研究

根据颗粒在悬浮粒群沉降过程中所受到的不同形式的力,可计算推导出颗粒自由沉降速度公式和颗粒的干涉沉降速度公式。自制干涉沉降装置用于本科生实验,根据实验数据绘制了ψ;与φ关系图、φ—φψ;关系,通过颗粒干涉沉降公式求出的指数n值来表征物料中颗粒的粒度和形状的影响,粒度越小,形状越不规则,n值越大,干涉沉降速度v;越小。

干涉沉降式水力分级机在玻璃用硅砂选矿生产中的应用

采用水力分级机取代高频振动筛对粗粒级硅砂进行分级的实践证明,其分级效率较机械筛分高,无机械传动,无噪声,设备运行费用低,节能环保,有效的降低了生产成本。其工艺技术达到了欧美发达国家现有的水平。

L和C波段雷达干涉数据矿区地面沉降监测能力分析

雷达成像的波长、入射角、地面分辨率等参数严重影响着SAR差分干涉测量地面沉降的监测能力和精度,论文通过理论推导和矿区实际沉降差分干涉相位模拟,从监测到的最大沉降梯度和沉降量、保相能力、对微小沉降的敏感程度等方面对L和C波段雷达干涉数据的矿区地面沉降监测能力进行分析;精化双轨D-InSAR数据处理的流程、方法和相应参数,使用ALOS PALSAR和ENVISAT ASAR数据获取济宁某矿区2009年12月到2010年02月期间更为精确的矿区地面沉降结果,并对沉降结果进行详细比较和系统分析.理论推导、相位模拟和真实数据实验都表明,相对于C波段的雷达干涉数据而言,L波段雷达干涉数据具有较强的保相能力,能够更好地降低失相干和相位不连续性的影响,更容易监测到沉降梯度和沉降量较大的矿区地面沉降,但对微小矿区地面沉降的敏感程度较低.

利用合成孔径雷达干涉测量技术监测地面沉降及其诱发的地质灾害：墨西哥莫雷利亚市研究实例

利用常规合成孔径雷达干涉测量技术（InSAR）和永久散射体干涉测量技术，对在2003至2010年问获取的23幅ENVISAT合成孔径雷达（SAR）图进行处理，以调查墨西哥莫雷利亚市地面沉降的时空分布模式。这些沉降区以地下水超采导致的集中圆形模式（例如格兰德河曲流区域；最大变形为7-8cm／yr）分布，或者以沿东北．西南或东一西向以及与主要断层平行方向延伸的模式分布（例如LaColina、LaPaloma和CentralCamionera断层；最大变形为4-5cm／yr）。在一些主要正断层上盘区也测量出较高的沉降速率，而在这些断层上盘区出露的第四系可压缩沉积层序厚度最大。横跨主要断层鉴别出明显的沉降速率差异，这表明这些断层起到地下水水平运动的阻挡层的作用。沉降速率与可压缩沉积层总厚度之间显示弱正相关性，而与抽水速率或静水位变化之间无任何相关性。利用常规InSAR对地面变形进行的延时分析揭示了LaColina断层和格兰德河曲流区北部地面沉降随时间的变化。对于格兰德河曲流区，InSAR测量的横剖面和三维视图以及沉降速率随时间变化的分析结果表明，沉降速率自2005年以来开始增大；这与PradosVerdesII井的再次下套管有关，因为该井井位处于最大沉降区中部。

螺旋分级筛分机的研制及工业试验

通过在传统的螺旋分级机上引入湿式筛分，研制成螺旋分级筛分机。在马钢姑山选厂进行的工业试验表明，该设备比原用螺旋分级机的分级质效率提高８１０～１２４８个百分点，磨机处理能力增加１３７３％。由于该机结构简单，改造容易且费用低廉，分级效果改善明显，经济效益可观，因此很有推广应用价值。

稳态浓密机全尾砂脱水规律物理模拟

结合沉降和压滤实验研究浓密机内全压力范围下尾砂脱水性能,考察网状结构形成体积分数、压缩屈服应力、干涉沉降系数等参数的变化规律。结果表明:网状结构形成体积分数随絮凝剂单耗增加先升高后降低,单耗20 g/t时网状结构形成体积分数达到最大值;压缩屈服应力随体积分数变化呈幂和指数增长,在低压力区域,絮凝剂单耗对底流体积分数影响较大,在高压力区域,絮凝剂作用逐渐弱化;干涉沉降系数随体积分数变化呈幂增长,在低压力区域,絮凝剂单耗对料浆渗透性影响较大,单耗80 g/t时渗透性良好,在高压力区域,絮凝剂单耗对料浆渗透性影响逐渐弱化。实验范围内,膏体料浆存在脱水拐点,其体积分数为38%～42%。

絮团稠化对全尾砂浓密性能的影响

基于全尾砂浓密过程料浆质量分数高,尾矿絮团无法直接观测,而取样稀释再进行测试分析难以避免误差,借助FBRM和PVM实时在线监测和分析系统,观测全尾砂浓密过程耙架剪切应力和重力耦合作用下絮团颗粒结构和粒度的变化。研究结果表明:在泥层高度分别为25,45和70cm的3个全尾砂浓密阶段内均保持耙架转速为15r/min的试验条件下,直径在100μm以上的絮团逐渐破裂重构而数量减少,直径在10μm以下絮团数量相应增加,松散的大絮团逐渐演化成为密实的小絮团;絮团有效直径随剪切时间延长和泥层高度增加而减小,絮团稠化速程度随泥层高度上升而加快;有效干涉沉降系数是基于絮团有效直径的函数,随剪切时间延长和泥层高度增加呈现先增大后稳定的趋势。

灵山萤石选矿工艺及试生产实践

介绍灵山选矿厂萤石选矿工艺及试生产情况 ,分析了流程存在的问题及处理意见 ,探讨了溢流、精矿、尾矿特性。

隔膜式浆体泵隔离罐中矿浆状态的理论分析

通过对隔膜式浆体隔离罐中矿浆运动与分层规律的研究 。

粗煤泥流化床分选机分选过程中分级负效应分析

分析了粗煤泥流化床分选机的工作原理,通过对沉降速度、干涉沉降等概念或公式进行分析,探究了入料粒度对流化床分选机分选效果的影响;通过试验数据分析,论证了粗煤泥流化床分选机工作过程中的分级负效应,对流化床分选机的入料粒度范围进行了探讨,并提出了降低分级负效应的合理化建议。

矿浆浓度对斜窄流分级机分级质效率的影响研究

影响斜窄流分级机使用效果的首要因素是给矿浓度,故研究给矿浓度对分级效率的影响对斜窄流分级机的合理应用具有指导意义。斜窄流分级机的现场条件试验研究表明,用于脱泥作业时,给矿浓度不宜大于20%;用于分级作业时,给矿浓度不宜大于30%。给矿浓度大于10%的脱泥和分级作业,因干涉沉降严重,理论计算的分离粒度的沉降速度值和实际值相差很大,必须通过试验来确定。

Land subsidence monitoring by D-InSAR technique

Nowadays, the researches of using Differential Interferometric Synthetic Aperture Radar (D-InSAR) tech- nique to monitor the land subsidence are mainly on how to qualitatively analyze the subsidence areas and values, but the analysis of subsidence process and mechanism are insufficient. In order to resolve these problems, 6 scenes of ERS1/2 images captured during 1995 and 2000 in a certain place of Jiangsu province were selected to obtain the subsidence and velocities in three time segments by ''two-pass'' D- InSAR method. Then the relationships among distributions of pumping wells, exploitation quantity of groundwater, and confined water levels were studied and the subsidence mechanism was systematically analyzed. The results show that using D-InSAR technique to monitor the deformation of large area can obtain high accuracies, the disadvantages of classical observation methods can be remedied and there is a linear relationship among the velocities of land subsidence, the water level and the exploitation quantity.

Properties of L-band differential InSAR for monitoring mining-induced subsidence in coalfield of Jining, Northern China

The properties and feasibility of L-band differential InSAR for detecting and monitoring mining-induced subsidence were systematically analyzed and demonstrated. The largest monitored subsidence gradient of 7.9×10-3 and magnitude of 91 cm were firstly derived by theoretical derivation. Then, the stronger phase maintaining capacity and weaker sensitivity to minor land subsidence compared with C-band DInSAR were illustrated by phase simulation of the actual mine subsidence. Finally, the data processing procedure of two-pass DInSAR was further refined to accurately observe subsidence of a coalfield of Jining in Northern China using 7 ALOS PALSAR images. The largest monitored subsidence magnitude of 39.22 cm and other properties were better investigated by testing results interpretation and subsidence analysis, and the absolute difference varying from 0.5 mm to 17.9 mm was obtained by comparison with leveling-measured subsidence. All of results show that L-band DInSAR technique can investigate the location, amount, area and other detailed subsidence information with relatively higher accuracy.

Evaluating Land Surface Changes of Makassar City Using DInSAR and Landsat Thematic Mapper Images

Urban growth has been a major issue in environmental monitoring and changes occurred on land surfaces have been monitored by applying remote sensing as well as ground measurement. Most major cities in the world have experienced land subsidence phenomena on some parts of them due to the load of development and modernization. Excessive extraction of groundwater for the needs of industry has led to the condition where the water table drops, and this can possibly trigger subsidence, as observed in Indonesian cities. In this study the authors have shown that the application of DInSAR （differential interferometric synthetic aperture radar） technique using Japanese Earth Resources Satellite-I Synthetic Aperture Radar JERS-I SAR data can reveal subsidence conditions in the studied Makassar city area. Landsat TM （thematic mapper） images were used to evaluate the change of land cover during the observation period of 1994-1999. Makassar is fiat, covered mainly by alluvium deposit that is vulnerable to the load of constructions, and volcanic formations which is porous and will easily be degraded by groundwater extraction. It is found that mostly the subsidence has occurred in the western part of the city, including the industrial district, reclamation area, trading center area and the seaport area. The ground survey has indicated that high human activity exists in every point of subsidence. It is likely that various human activities such as ground water pumping and construction work should have affected the local subsidence phenomena in Makassar, as in the case of other large-scale cities in Indonesia.

搅拌桶中煤矸石沉降的研究

将煤矸石用于胶结充填可降低成本,有利于环境保护,煤矸石由于块度大、不均匀系数高,易在搅拌桶内率先沉淀,影响了搅拌效果。对充填浆体制备流程进行了研究分析,发现煤矸石在搅拌均匀的水泥、粉煤灰浆体中的沉降速度要远远小于其在清水中的沉降速度。根据这一特性提出了对充填物料下料顺序的优化。

海滨石英砂矿的选矿研究

对福建某海滨石英砂矿床的矿物组成，选矿方法及工业流程进行了实验研究，提出了以脱泥、擦洗、重选、磁选为主的联合工艺流程，产品满足浮法玻璃一级硅质原料的质量要求。